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Saturday, September 1, 2018

Mass spectrometry

From Wikipedia, the free encyclopedia
 
Orbitrap mass spectrometer

Mass spectrometry (MS) is an analytical technique that ionizes chemical species and sorts the ions based on their mass-to-charge ratio. In simpler terms, a mass spectrum measures the masses within a sample. Mass spectrometry is used in many different fields and is applied to pure samples as well as complex mixtures.

A mass spectrum is a plot of the ion signal as a function of the mass-to-charge ratio. These spectra are used to determine the elemental or isotopic signature of a sample, the masses of particles and of molecules, and to elucidate the chemical structures of molecules and other chemical compounds.
In a typical MS procedure, a sample, which may be solid, liquid, or gas, is ionized, for example by bombarding it with electrons. This may cause some of the sample's molecules to break into charged fragments. These ions are then separated according to their mass-to-charge ratio, typically by accelerating them and subjecting them to an electric or magnetic field: ions of the same mass-to-charge ratio will undergo the same amount of deflection. The ions are detected by a mechanism capable of detecting charged particles, such as an electron multiplier. Results are displayed as spectra of the relative abundance of detected ions as a function of the mass-to-charge ratio. The atoms or molecules in the sample can be identified by correlating known masses (e.g. an entire molecule) to the identified masses or through a characteristic fragmentation pattern.

History

Replica of J.J. Thomson's third mass spectrometer

In 1886, Eugen Goldstein observed rays in gas discharges under low pressure that traveled away from the anode and through channels in a perforated cathode, opposite to the direction of negatively charged cathode rays (which travel from cathode to anode). Goldstein called these positively charged anode rays "Kanalstrahlen"; the standard translation of this term into English is "canal rays". Wilhelm Wien found that strong electric or magnetic fields deflected the canal rays and, in 1899, constructed a device with perpendicular electric and magnetic fields that separated the positive rays according to their charge-to-mass ratio (Q/m). Wien found that the charge-to-mass ratio depended on the nature of the gas in the discharge tube. English scientist J.J. Thomson later improved on the work of Wien by reducing the pressure to create the mass spectrograph.

Calutron mass spectrometers were used in the Manhattan Project for uranium enrichment.

The word spectrograph had become part of the international scientific vocabulary by 1884. Early spectrometry devices that measured the mass-to-charge ratio of ions were called mass spectrographs which consisted of instruments that recorded a spectrum of mass values on a photographic plate. A mass spectroscope is similar to a mass spectrograph except that the beam of ions is directed onto a phosphor screen. A mass spectroscope configuration was used in early instruments when it was desired that the effects of adjustments be quickly observed. Once the instrument was properly adjusted, a photographic plate was inserted and exposed. The term mass spectroscope continued to be used even though the direct illumination of a phosphor screen was replaced by indirect measurements with an oscilloscope. The use of the term mass spectroscopy is now discouraged due to the possibility of confusion with light spectroscopy. Mass spectrometry is often abbreviated as mass-spec or simply as MS.

Modern techniques of mass spectrometry were devised by Arthur Jeffrey Dempster and F.W. Aston in 1918 and 1919 respectively.

Sector mass spectrometers known as calutrons were developed by Ernest O. Lawrence and used for separating the isotopes of uranium during the Manhattan Project. Calutron mass spectrometers were used for uranium enrichment at the Oak Ridge, Tennessee Y-12 plant established during World War II.

In 1989, half of the Nobel Prize in Physics was awarded to Hans Dehmelt and Wolfgang Paul for the development of the ion trap technique in the 1950s and 1960s.

In 2002, the Nobel Prize in Chemistry was awarded to John Bennett Fenn for the development of electrospray ionization (ESI) and Koichi Tanaka for the development of soft laser desorption (SLD) and their application to the ionization of biological macromolecules, especially proteins.

Parts of a mass spectrometer

Schematics of a simple mass spectrometer with sector type mass analyzer. This one is for the measurement of carbon dioxide isotope ratios (IRMS) as in the carbon-13 urea breath test

A mass spectrometer consists of three components: an ion source, a mass analyzer, and a detector. The ionizer converts a portion of the sample into ions. There is a wide variety of ionization techniques, depending on the phase (solid, liquid, gas) of the sample and the efficiency of various ionization mechanisms for the unknown species. An extraction system removes ions from the sample, which are then targeted through the mass analyzer and into the detector. The differences in masses of the fragments allows the mass analyzer to sort the ions by their mass-to-charge ratio. The detector measures the value of an indicator quantity and thus provides data for calculating the abundances of each ion present. Some detectors also give spatial information, e.g., a multichannel plate.

Theoretical example

The following example describes the operation of a spectrometer mass analyzer, which is of the sector type. (Other analyzer types are treated below.) Consider a sample of sodium chloride (table salt). In the ion source, the sample is vaporized (turned into gas) and ionized (transformed into electrically charged particles) into sodium (Na+) and chloride (Cl) ions. Sodium atoms and ions are monoisotopic, with a mass of about 23 u. Chloride atoms and ions come in two isotopes with masses of approximately 35 u (at a natural abundance of about 75 percent) and approximately 37 u (at a natural abundance of about 25 percent). The analyzer part of the spectrometer contains electric and magnetic fields, which exert forces on ions traveling through these fields. The speed of a charged particle may be increased or decreased while passing through the electric field, and its direction may be altered by the magnetic field. The magnitude of the deflection of the moving ion's trajectory depends on its mass-to-charge ratio. Lighter ions get deflected by the magnetic force more than heavier ions (based on Newton's second law of motion, F = ma). The streams of sorted ions pass from the analyzer to the detector, which records the relative abundance of each ion type. This information is used to determine the chemical element composition of the original sample (i.e. that both sodium and chlorine are present in the sample) and the isotopic composition of its constituents (the ratio of 35Cl to 37Cl).

Creating ions

Surface ionization source at the Argonne National Laboratory linear accelerator

The ion source is the part of the mass spectrometer that ionizes the material under analysis (the analyte). The ions are then transported by magnetic or electric fields to the mass analyzer.
Techniques for ionization have been key to determining what types of samples can be analyzed by mass spectrometry. Electron ionization and chemical ionization are used for gases and vapors. In chemical ionization sources, the analyte is ionized by chemical ion-molecule reactions during collisions in the source. Two techniques often used with liquid and solid biological samples include electrospray ionization (invented by John Fenn[11]) and matrix-assisted laser desorption/ionization (MALDI, initially developed as a similar technique "Soft Laser Desorption (SLD)" by K. Tanaka for which a Nobel Prize was awarded and as MALDI by M. Karas and F. Hillenkamp).

Hard ionization and soft ionization

Quadrupole mass spectrometer and electrospray ion source used for Fenn's early work

In mass spectrometry, ionization refers to the production of gas phase ions suitable for resolution in the mass analyser or mass filter. Ionization occurs in the ion source. There are several ion sources available; each has advantages and disadvantages for particular applications. For example, electron ionization (EI) gives a high degree of fragmentation, yielding highly detailed mass spectra which when skilfully analysed can provide important information for structural elucidation/characterisation and facilitate identification of unknown compounds by comparison to mass spectral libraries obtained under identical operating conditions. However, EI is not suitable for coupling to HPLC, i.e. LC-MS, since at atmospheric pressure, the filaments used to generate electrons burn out rapidly. Thus EI is coupled predominantly with GC, i.e. GC-MS, where the entire system is under high vacuum.

Hard ionization techniques are processes which impart high quantities of residual energy in the subject molecule invoking large degrees of fragmentation (i.e. the systematic rupturing of bonds acts to remove the excess energy, restoring stability to the resulting ion). Resultant ions tend to have m/z lower than the molecular mass (other than in the case of proton transfer and not including isotope peaks). The most common example of hard ionization is electron ionization (EI).

Soft ionization refers to the processes which impart little residual energy onto the subject molecule and as such result in little fragmentation. Examples include fast atom bombardment (FAB), chemical ionization (CI), atmospheric-pressure chemical ionization (APCI), electrospray ionization (ESI), and matrix-assisted laser desorption/ionization (MALDI).

Inductively coupled plasma

Inductively coupled plasma ion source

Inductively coupled plasma (ICP) sources are used primarily for cation analysis of a wide array of sample types. In this source, a plasma that is electrically neutral overall, but that has had a substantial fraction of its atoms ionized by high temperature, is used to atomize introduced sample molecules and to further strip the outer electrons from those atoms. The plasma is usually generated from argon gas, since the first ionization energy of argon atoms is higher than the first of any other elements except He, O, F and Ne, but lower than the second ionization energy of all except the most electropositive metals. The heating is achieved by a radio-frequency current passed through a coil surrounding the plasma.

Photoionization mass spectrometry

Photoionization can be used in experiments which seek to use mass spectrometry as a means of resolving chemical kinetics mechanisms and isomeric product branching. In such instances a high energy photon, either X-ray or uv, is used to dissociate stable gaseous molecules in a carrier gas of He or Ar. In instances where a synchrotron light source is utilzed, a tuneable photon energy can be utilized to acquire a photoionization efficiency curve which can be used in conjunction with the charge ratio m/z to fingerprint molecular and ionic species.

Other ionization techniques

Others include glow discharge, field desorption (FD), fast atom bombardment (FAB), thermospray, desorption/ionization on silicon (DIOS), Direct Analysis in Real Time (DART), atmospheric pressure chemical ionization (APCI), secondary ion mass spectrometry (SIMS), spark ionization and thermal ionization (TIMS).

Mass selection

Mass analyzers separate the ions according to their mass-to-charge ratio. The following two laws govern the dynamics of charged particles in electric and magnetic fields in vacuum:
\mathbf{F} = Q (\mathbf{E} + \mathbf{v} \times \mathbf{B}) (Lorentz force law);
\mathbf {F} =m\mathbf {a} (Newton's second law of motion in non-relativistic case, i.e. valid only at ion velocity much lower than the speed of light).
Here F is the force applied to the ion, m is the mass of the ion, a is the acceleration, Q is the ion charge, E is the electric field, and v × B is the vector cross product of the ion velocity and the magnetic field.

Equating the above expressions for the force applied to the ion yields:
(m/Q)\mathbf{a} = \mathbf{E}+ \mathbf{v} \times \mathbf{B}.
This differential equation is the classic equation of motion for charged particles. Together with the particle's initial conditions, it completely determines the particle's motion in space and time in terms of m/Q. Thus mass spectrometers could be thought of as "mass-to-charge spectrometers". When presenting data, it is common to use the (officially) dimensionless m/z, where z is the number of elementary charges (e) on the ion (z=Q/e). This quantity, although it is informally called the mass-to-charge ratio, more accurately speaking represents the ratio of the mass number and the charge number, z.

There are many types of mass analyzers, using either static or dynamic fields, and magnetic or electric fields, but all operate according to the above differential equation. Each analyzer type has its strengths and weaknesses. Many mass spectrometers use two or more mass analyzers for tandem mass spectrometry (MS/MS). In addition to the more common mass analyzers listed below, there are others designed for special situations.

There are several important analyser characteristics. The mass resolving power is the measure of the ability to distinguish two peaks of slightly different m/z. The mass accuracy is the ratio of the m/z measurement error to the true m/z. Mass accuracy is usually measured in ppm or milli mass units. The mass range is the range of m/z amenable to analysis by a given analyzer. The linear dynamic range is the range over which ion signal is linear with analyte concentration. Speed refers to the time frame of the experiment and ultimately is used to determine the number of spectra per unit time that can be generated.

Sector instruments

ThermoQuest AvantGarde sector mass spectrometer

A sector field mass analyzer uses a static electric and/or magnetic field to affect the path and/or velocity of the charged particles in some way. As shown above, sector instruments bend the trajectories of the ions as they pass through the mass analyzer, according to their mass-to-charge ratios, deflecting the more charged and faster-moving, lighter ions more. The analyzer can be used to select a narrow range of m/z or to scan through a range of m/z to catalog the ions present.

Time-of-flight

The time-of-flight (TOF) analyzer uses an electric field to accelerate the ions through the same potential, and then measures the time they take to reach the detector. If the particles all have the same charge, the kinetic energies tends to be identical, and their velocities, in this case, will depend only on their masses. Ions with a lower mass will reach the detector first. However, in reality, even particles with the same m/z can arrive at different times at the detector, because they have different initial velocities. The initial velocity is not dependent on the mass of the ion what becomes a problem for the TOF-MS. The difference in initial velocity turns into difference in the final velocity. In this way, ions with the same m/z are going to arrive at different times in the detector. For fixing this problem, time-lag focusing/delayed extraction has been coupled with TOF-MS.

Quadrupole mass filter

Quadrupole mass analyzers use oscillating electrical fields to selectively stabilize or destabilize the paths of ions passing through a radio frequency (RF) quadrupole field created between 4 parallel rods. Only the ions in a certain range of mass/charge ratio are passed through the system at any time, but changes to the potentials on the rods allow a wide range of m/z values to be swept rapidly, either continuously or in a succession of discrete hops. A quadrupole mass analyzer acts as a mass-selective filter and is closely related to the quadrupole ion trap, particularly the linear quadrupole ion trap except that it is designed to pass the untrapped ions rather than collect the trapped ones, and is for that reason referred to as a transmission quadrupole. A magnetically enhanced quadrupole mass analyzer includes the addition of a magnetic field, either applied axially or transversely. This novel type of instrument leads to an additional performance enhancement in terms of resolution and/or sensitivity depending upon the magnitude and orientation of the applied magnetic field. A common variation of the transmission quadrupole is the triple quadrupole mass spectrometer. The “triple quad” has three consecutive quadrupole stages, the first acting as a mass filter to transmit a particular incoming ion to the second quadrupole, a collision chamber, wherein that ion can be broken into fragments. The third quadrupole also acts as a mass filter, to transmit a particular fragment ion to the detector. If a quadrupole is made to rapidly and repetitively cycle through a range of mass filter settings, full spectra can be reported. Likewise, a triple quad can be made to perform various scan types characteristic of tandem mass spectrometry.

Ion traps

Three-dimensional quadrupole ion trap

The quadrupole ion trap works on the same physical principles as the quadrupole mass analyzer, but the ions are trapped and sequentially ejected. Ions are trapped in a mainly quadrupole RF field, in a space defined by a ring electrode (usually connected to the main RF potential) between two endcap electrodes (typically connected to DC or auxiliary AC potentials). The sample is ionized either internally (e.g. with an electron or laser beam), or externally, in which case the ions are often introduced through an aperture in an endcap electrode.

There are many mass/charge separation and isolation methods but the most commonly used is the mass instability mode in which the RF potential is ramped so that the orbit of ions with a mass a > b are stable while ions with mass b become unstable and are ejected on the z-axis onto a detector. There are also non-destructive analysis methods.

Ions may also be ejected by the resonance excitation method, whereby a supplemental oscillatory excitation voltage is applied to the endcap electrodes, and the trapping voltage amplitude and/or excitation voltage frequency is varied to bring ions into a resonance condition in order of their mass/charge ratio.

Cylindrical ion trap

The cylindrical ion trap mass spectrometer (CIT) is a derivative of the quadrupole ion trap where the electrodes are formed from flat rings rather than hyperbolic shaped electrodes. The architecture lends itself well to miniaturization because as the size of a trap is reduced, the shape of the electric field near the center of the trap, the region where the ions are trapped, forms a shape similar to that of a hyperbolic trap.

Linear quadrupole ion trap

A linear quadrupole ion trap is similar to a quadrupole ion trap, but it traps ions in a two dimensional quadrupole field, instead of a three-dimensional quadrupole field as in a 3D quadrupole ion trap. Thermo Fisher's LTQ ("linear trap quadrupole") is an example of the linear ion trap.

A toroidal ion trap can be visualized as a linear quadrupole curved around and connected at the ends or as a cross section of a 3D ion trap rotated on edge to form the toroid, donut shaped trap. The trap can store large volumes of ions by distributing them throughout the ring-like trap structure. This toroidal shaped trap is a configuration that allows the increased miniaturization of an ion trap mass analyzer. Additionally all ions are stored in the same trapping field and ejected together simplifying detection that can be complicated with array configurations due to variations in detector alignment and machining of the arrays.

As with the toroidal trap, linear traps and 3D quadrupole ion traps are the most commonly miniaturized mass analyzers due to their high sensitivity, tolerance for mTorr pressure, and capabilities for single analyzer tandem mass spectrometry (e.g. product ion scans).

Orbitrap

Orbitrap mass analyzer

Orbitrap instruments are similar to Fourier transform ion cyclotron resonance mass spectrometers (see text below). Ions are electrostatically trapped in an orbit around a central, spindle shaped electrode. The electrode confines the ions so that they both orbit around the central electrode and oscillate back and forth along the central electrode's long axis. This oscillation generates an image current in the detector plates which is recorded by the instrument. The frequencies of these image currents depend on the mass-to-charge ratios of the ions. Mass spectra are obtained by Fourier transformation of the recorded image currents.

Orbitraps have a high mass accuracy, high sensitivity and a good dynamic range.

Fourier transform ion cyclotron resonance

Fourier transform ion cyclotron resonance mass spectrometer

Fourier transform mass spectrometry (FTMS), or more precisely Fourier transform ion cyclotron resonance MS, measures mass by detecting the image current produced by ions cyclotroning in the presence of a magnetic field. Instead of measuring the deflection of ions with a detector such as an electron multiplier, the ions are injected into a Penning trap (a static electric/magnetic ion trap) where they effectively form part of a circuit. Detectors at fixed positions in space measure the electrical signal of ions which pass near them over time, producing a periodic signal. Since the frequency of an ion's cycling is determined by its mass-to-charge ratio, this can be deconvoluted by performing a Fourier transform on the signal. FTMS has the advantage of high sensitivity (since each ion is "counted" more than once) and much higher resolution and thus precision.

Ion cyclotron resonance (ICR) is an older mass analysis technique similar to FTMS except that ions are detected with a traditional detector. Ions trapped in a Penning trap are excited by an RF electric field until they impact the wall of the trap, where the detector is located. Ions of different mass are resolved according to impact time.

Detectors

A continuous dynode particle multiplier detector

The final element of the mass spectrometer is the detector. The detector records either the charge induced or the current produced when an ion passes by or hits a surface. In a scanning instrument, the signal produced in the detector during the course of the scan versus where the instrument is in the scan (at what m/Q) will produce a mass spectrum, a record of ions as a function of m/Q.

Typically, some type of electron multiplier is used, though other detectors including Faraday cups and ion-to-photon detectors are also used. Because the number of ions leaving the mass analyzer at a particular instant is typically quite small, considerable amplification is often necessary to get a signal. Microchannel plate detectors are commonly used in modern commercial instruments. In FTMS and Orbitraps, the detector consists of a pair of metal surfaces within the mass analyzer/ion trap region which the ions only pass near as they oscillate. No direct current is produced, only a weak AC image current is produced in a circuit between the electrodes. Other inductive detectors have also been used.

Tandem mass spectrometry

Tandem mass spectrometry for biological molecules using ESI or MALDI

A tandem mass spectrometer is one capable of multiple rounds of mass spectrometry, usually separated by some form of molecule fragmentation. For example, one mass analyzer can isolate one peptide from many entering a mass spectrometer. A second mass analyzer then stabilizes the peptide ions while they collide with a gas, causing them to fragment by collision-induced dissociation (CID). A third mass analyzer then sorts the fragments produced from the peptides. Tandem MS can also be done in a single mass analyzer over time, as in a quadrupole ion trap. There are various methods for fragmenting molecules for tandem MS, including collision-induced dissociation (CID), electron capture dissociation (ECD), electron transfer dissociation (ETD), infrared multiphoton dissociation (IRMPD), blackbody infrared radiative dissociation (BIRD), electron-detachment dissociation (EDD) and surface-induced dissociation (SID). An important application using tandem mass spectrometry is in protein identification.

Tandem mass spectrometry enables a variety of experimental sequences. Many commercial mass spectrometers are designed to expedite the execution of such routine sequences as selected reaction monitoring (SRM) and precursor ion scanning. In SRM, the first analyzer allows only a single mass through and the second analyzer monitors for multiple user-defined fragment ions. SRM is most often used with scanning instruments where the second mass analysis event is duty cycle limited. These experiments are used to increase specificity of detection of known molecules, notably in pharmacokinetic studies. Precursor ion scanning refers to monitoring for a specific loss from the precursor ion. The first and second mass analyzers scan across the spectrum as partitioned by a user-defined m/z value. This experiment is used to detect specific motifs within unknown molecules.
Another type of tandem mass spectrometry used for radiocarbon dating is accelerator mass spectrometry (AMS), which uses very high voltages, usually in the mega-volt range, to accelerate negative ions into a type of tandem mass spectrometer.

Common mass spectrometer configurations and techniques

When a specific combination of source, analyzer, and detector becomes conventional in practice, a compound acronym may arise to designate it succinctly. One example is MALDI-TOF, which refers to a combination of a matrix-assisted laser desorption/ionization source with a time-of-flight mass analyzer. Other examples include inductively coupled plasma-mass spectrometry (ICP-MS), accelerator mass spectrometry (AMS), thermal ionization-mass spectrometry (TIMS) and spark source mass spectrometry (SSMS).

Certain applications of mass spectrometry have developed monikers that although strictly speaking would seem to refer to a broad application, in practice have come instead to connote a specific or a limited number of instrument configurations. An example of this is isotope ratio mass spectrometry (IRMS), which refers in practice to the use of a limited number of sector based mass analyzers; this name is used to refer to both the application and the instrument used for the application.

Separation techniques combined with mass spectrometry

An important enhancement to the mass resolving and mass determining capabilities of mass spectrometry is using it in tandem with chromatographic and other separation techniques.

Gas chromatography

A gas chromatograph (right) directly coupled to a mass spectrometer (left)

A common combination is gas chromatography-mass spectrometry (GC/MS or GC-MS). In this technique, a gas chromatograph is used to separate different compounds. This stream of separated compounds is fed online into the ion source, a metallic filament to which voltage is applied. This filament emits electrons which ionize the compounds. The ions can then further fragment, yielding predictable patterns. Intact ions and fragments pass into the mass spectrometer's analyzer and are eventually detected.

Liquid chromatography


Similar to gas chromatography MS (GC/MS), liquid chromatography-mass spectrometry (LC/MS or LC-MS) separates compounds chromatographically before they are introduced to the ion source and mass spectrometer. It differs from GC/MS in that the mobile phase is liquid, usually a mixture of water and organic solvents, instead of gas. Most commonly, an electrospray ionization source is used in LC/MS. Other popular and commercially available LC/MS ion sources are atmospheric pressure chemical ionization and atmospheric pressure photoionization. There are also some newly developed ionization techniques like laser spray.

Capillary electrophoresis–mass spectrometry

Capillary electrophoresis–mass spectrometry (CE-MS) is a technique that combines the liquid separation process of capillary electrophoresis with mass spectrometry. CE-MS is typically coupled to electrospray ionization.

Ion mobility

Ion mobility spectrometry-mass spectrometry (IMS/MS or IMMS) is a technique where ions are first separated by drift time through some neutral gas under an applied electrical potential gradient before being introduced into a mass spectrometer. Drift time is a measure of the radius relative to the charge of the ion. The duty cycle of IMS (the time over which the experiment takes place) is longer than most mass spectrometric techniques, such that the mass spectrometer can sample along the course of the IMS separation. This produces data about the IMS separation and the mass-to-charge ratio of the ions in a manner similar to LC/MS.

The duty cycle of IMS is short relative to liquid chromatography or gas chromatography separations and can thus be coupled to such techniques, producing triple modalities such as LC/IMS/MS.

Data and analysis

Mass spectrum of a peptide showing the isotopic distribution

Data representations

Mass spectrometry produces various types of data. The most common data representation is the mass spectrum.

Certain types of mass spectrometry data are best represented as a mass chromatogram. Types of chromatograms include selected ion monitoring (SIM), total ion current (TIC), and selected reaction monitoring (SRM), among many others.

Other types of mass spectrometry data are well represented as a three-dimensional contour map. In this form, the mass-to-charge, m/z is on the x-axis, intensity the y-axis, and an additional experimental parameter, such as time, is recorded on the z-axis.

Data analysis

Mass spectrometry data analysis is specific to the type of experiment producing the data. General subdivisions of data are fundamental to understanding any data.

Many mass spectrometers work in either negative ion mode or positive ion mode. It is very important to know whether the observed ions are negatively or positively charged. This is often important in determining the neutral mass but it also indicates something about the nature of the molecules.

Different types of ion source result in different arrays of fragments produced from the original molecules. An electron ionization source produces many fragments and mostly single-charged (1-) radicals (odd number of electrons), whereas an electrospray source usually produces non-radical quasimolecular ions that are frequently multiply charged. Tandem mass spectrometry purposely produces fragment ions post-source and can drastically change the sort of data achieved by an experiment.

Knowledge of the origin of a sample can provide insight into the component molecules of the sample and their fragmentations. A sample from a synthesis/manufacturing process will probably contain impurities chemically related to the target component. A crudely prepared biological sample will probably contain a certain amount of salt, which may form adducts with the analyte molecules in certain analyses.

Results can also depend heavily on sample preparation and how it was run/introduced. An important example is the issue of which matrix is used for MALDI spotting, since much of the energetics of the desorption/ionization event is controlled by the matrix rather than the laser power. Sometimes samples are spiked with sodium or another ion-carrying species to produce adducts rather than a protonated species.

Mass spectrometry can measure molar mass, molecular structure, and sample purity. Each of these questions requires a different experimental procedure; therefore, adequate definition of the experimental goal is a prerequisite for collecting the proper data and successfully interpreting it.

Interpretation of mass spectra

Toluene electron ionization mass spectrum

Since the precise structure or peptide sequence of a molecule is deciphered through the set of fragment masses, the interpretation of mass spectra requires combined use of various techniques. Usually the first strategy for identifying an unknown compound is to compare its experimental mass spectrum against a library of mass spectra. If no matches result from the search, then manual interpretation or software assisted interpretation of mass spectra must be performed. Computer simulation of ionization and fragmentation processes occurring in mass spectrometer is the primary tool for assigning structure or peptide sequence to a molecule. An a priori structural information is fragmented in silico and the resulting pattern is compared with observed spectrum. Such simulation is often supported by a fragmentation library that contains published patterns of known decomposition reactions. Software taking advantage of this idea has been developed for both small molecules and proteins.

Analysis of mass spectra can also be spectra with accurate mass. A mass-to-charge ratio value (m/z) with only integer precision can represent an immense number of theoretically possible ion structures; however, more precise mass figures significantly reduce the number of candidate molecular formulas. A computer algorithm called formula generator calculates all molecular formulas that theoretically fit a given mass with specified tolerance.

A recent technique for structure elucidation in mass spectrometry, called precursor ion fingerprinting, identifies individual pieces of structural information by conducting a search of the tandem spectra of the molecule under investigation against a library of the product-ion spectra of structurally characterized precursor ions.

Applications

NOAA Particle Analysis by Laser Mass Spectrometry aerosol mass spectrometer aboard a NASA WB-57 high-altitude research aircraft

Mass spectrometry has both qualitative and quantitative uses. These include identifying unknown compounds, determining the isotopic composition of elements in a molecule, and determining the structure of a compound by observing its fragmentation. Other uses include quantifying the amount of a compound in a sample or studying the fundamentals of gas phase ion chemistry (the chemistry of ions and neutrals in a vacuum). MS is now in very common use in analytical laboratories that study physical, chemical, or biological properties of a great variety of compounds.

As an analytical technique it possesses distinct advantages such as: Increased sensitivity over most other analytical techniques because the analyzer, as a mass-charge filter, reduces background interference, Excellent specificity from characteristic fragmentation patterns to identify unknowns or confirm the presence of suspected compounds, Information about molecular weight, Information about the isotopic abundance of elements, Temporally resolved chemical data.

A few of the disadvantages of the method is that it often fails to distinguish between optical and geometrical isomers and the positions of substituent in o-, m- and p- positions in an aromatic ring. Also, its scope is limited in identifying hydrocarbons that produce similar fragmented ions.

Isotope ratio MS: isotope dating and tracing

Mass spectrometer to determine the 16O/18O and 12C/13C isotope ratio on biogenous carbonate

Mass spectrometry is also used to determine the isotopic composition of elements within a sample. Differences in mass among isotopes of an element are very small, and the less abundant isotopes of an element are typically very rare, so a very sensitive instrument is required. These instruments, sometimes referred to as isotope ratio mass spectrometers (IR-MS), usually use a single magnet to bend a beam of ionized particles towards a series of Faraday cups which convert particle impacts to electric current. A fast on-line analysis of deuterium content of water can be done using flowing afterglow mass spectrometry, FA-MS. Probably the most sensitive and accurate mass spectrometer for this purpose is the accelerator mass spectrometer (AMS). This is because it provides ultimate sensitivity, capable of measuring individual atoms and measuring nuclides with a dynamic range of ~1015 relative to the major stable isotope. Isotope ratios are important markers of a variety of processes. Some isotope ratios are used to determine the age of materials for example as in carbon dating. Labeling with stable isotopes is also used for protein quantification.

Membrane-Inlet Mass Spectrometry: Measuring gasses in solution

Membrane-inlet Mass Spectrometry, combines the Isotope ratio MS with a reaction chamber/cell separated by a gas-permeable membrane. This method allows the study of gasses as they evolve in solution. This method has been extensively used for the study of the production of oxygen by Photosystem II.

Trace gas analysis

Several techniques use ions created in a dedicated ion source injected into a flow tube or a drift tube: selected ion flow tube (SIFT-MS), and proton transfer reaction (PTR-MS), are variants of chemical ionization dedicated for trace gas analysis of air, breath or liquid headspace using well defined reaction time allowing calculations of analyte concentrations from the known reaction kinetics without the need for internal standard or calibration.

Atom probe

An atom probe is an instrument that combines time-of-flight mass spectrometry and field-evaporation microscopy to map the location of individual atoms.

Pharmacokinetics

Pharmacokinetics is often studied using mass spectrometry because of the complex nature of the matrix (often blood or urine) and the need for high sensitivity to observe low dose and long time point data. The most common instrumentation used in this application is LC-MS with a triple quadrupole mass spectrometer. Tandem mass spectrometry is usually employed for added specificity. Standard curves and internal standards are used for quantitation of usually a single pharmaceutical in the samples. The samples represent different time points as a pharmaceutical is administered and then metabolized or cleared from the body. Blank or t=0 samples taken before administration are important in determining background and ensuring data integrity with such complex sample matrices. Much attention is paid to the linearity of the standard curve; however it is not uncommon to use curve fitting with more complex functions such as quadratics since the response of most mass spectrometers is less than linear across large concentration ranges.

There is currently considerable interest in the use of very high sensitivity mass spectrometry for microdosing studies, which are seen as a promising alternative to animal experimentation.

Protein characterization

Mass spectrometry is an important method for the characterization and sequencing of proteins. The two primary methods for ionization of whole proteins are electrospray ionization (ESI) and matrix-assisted laser desorption/ionization (MALDI). In keeping with the performance and mass range of available mass spectrometers, two approaches are used for characterizing proteins. In the first, intact proteins are ionized by either of the two techniques described above, and then introduced to a mass analyzer. This approach is referred to as "top-down" strategy of protein analysis. The top-down approach however is largely limited to low-throughput single-protein studies. In the second, proteins are enzymatically digested into smaller peptides using proteases such as trypsin or pepsin, either in solution or in gel after electrophoretic separation. Other proteolytic agents are also used. The collection of peptide products are then introduced to the mass analyzer. When the characteristic pattern of peptides is used for the identification of the protein the method is called peptide mass fingerprinting (PMF), if the identification is performed using the sequence data determined in tandem MS analysis it is called de novo peptide sequencing. These procedures of protein analysis are also referred to as the "bottom-up" approach. A third approach however is beginning to be used, this intermediate "middle-down" approach involves analyzing proteolytic peptide larger than the typical tryptic peptide.

Glycan analysis

Mass spectrometry (MS), with its low sample requirement and high sensitivity, has been predominantly used in glycobiology for characterization and elucidation of glycan structures. Mass spectrometry provides a complementary method to HPLC for the analysis of glycans. Intact glycans may be detected directly as singly charged ions by matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) or, following permethylation or peracetylation, by fast atom bombardment mass spectrometry (FAB-MS). Electrospray ionization mass spectrometry (ESI-MS) also gives good signals for the smaller glycans. Various free and commercial software are now available which interpret MS data and aid in Glycan structure characterization.

Space exploration

NASA's Phoenix Mars Lander analyzing a soil sample from the "Rosy Red" trench with the TEGA mass spectrometer

As a standard method for analysis, mass spectrometers have reached other planets and moons. Two were taken to Mars by the Viking program. In early 2005 the Cassini–Huygens mission delivered a specialized GC-MS instrument aboard the Huygens probe through the atmosphere of Titan, the largest moon of the planet Saturn. This instrument analyzed atmospheric samples along its descent trajectory and was able to vaporize and analyze samples of Titan's frozen, hydrocarbon covered surface once the probe had landed. These measurements compare the abundance of isotope(s) of each particle comparatively to earth's natural abundance. Also on board the Cassini–Huygens spacecraft was an ion and neutral mass spectrometer which had been taking measurements of Titan's atmospheric composition as well as the composition of Enceladus' plumes. A Thermal and Evolved Gas Analyzer mass spectrometer was carried by the Mars Phoenix Lander launched in 2007.

Mass spectrometers are also widely used in space missions to measure the composition of plasmas. For example, the Cassini spacecraft carried the Cassini Plasma Spectrometer (CAPS), which measured the mass of ions in Saturn's magnetosphere.

Respired gas monitor

Mass spectrometers were used in hospitals for respiratory gas analysis beginning around 1975 through the end of the century. Some are probably still in use but none are currently being manufactured.

Found mostly in the operating room, they were a part of a complex system, in which respired gas samples from patients undergoing anesthesia were drawn into the instrument through a valve mechanism designed to sequentially connect up to 32 rooms to the mass spectrometer. A computer directed all operations of the system. The data collected from the mass spectrometer was delivered to the individual rooms for the anesthesiologist to use.

The uniqueness of this magnetic sector mass spectrometer may have been the fact that a plane of detectors, each purposely positioned to collect all of the ion species expected to be in the samples, allowed the instrument to simultaneously report all of the gases respired by the patient. Although the mass range was limited to slightly over 120 u, fragmentation of some of the heavier molecules negated the need for a higher detection limit.

Preparative mass spectrometry

The primary function of mass spectrometry is as a tool for chemical analyses based on detection and quantification of ions according to their mass-to-charge ratio. However, mass spectrometry also shows promise for material synthesis. Ion soft landing is characterized by deposition of intact species on surfaces at low kinetic energies which precludes the fragmentation of the incident species. The soft landing technique was first reported in 1977 for the reaction of low energy sulfur containing ions on a lead surface.

Serfdom

From Wikipedia, the free encyclopedia

Serfdom is the status of many peasants under feudalism, specifically relating to manorialism. It was a condition of bondage, which developed primarily during the High Middle Ages in Europe and lasted in some countries until the mid-19th century.

As with slaves, serfs could be bought, sold, or traded, abused with no rights over their own bodies, and could not leave the land they were bound to. Serfs who occupied a plot of land were required to work for the lord of the manor who owned that land. In return they were entitled to protection, justice, and the right to cultivate certain fields within the manor to maintain their own subsistence. Serfs were often required not only to work on the lord's fields, but also in his mines and forests and to labor to maintain roads. The manor formed the basic unit of feudal society, and the lord of the manor and the villeins, and to a certain extent serfs, were bound legally: by taxation in the case of the former, and economically and socially in the latter.

The decline of serfdom in Western Europe has sometimes been attributed to the widespread plague epidemic of the Black Death, which reached Europe in 1347 and caused massive fatalities, disrupting society. The decline had begun before that date. Serfdom became increasingly rare in most of Western Europe after the Renaissance. But, conversely it grew stronger in Central and Eastern Europe, where it had previously been less common (this phenomenon was known as "later serfdom").

In Eastern Europe the institution persisted until the mid-19th century. In the Austrian Empire serfdom was abolished by the 1781 Serfdom Patent; corvée continued to exist until 1848. Serfdom was abolished in Russia in the 1860s. In Finland, Norway and Sweden, feudalism was never fully established, and serfdom did not exist; however, serfdom-like institutions did exist in both Denmark (the stavnsbånd, from 1733 to 1788) and its vassal Iceland (the more restrictive vistarband, from 1490 until 1894).

According to medievalist historian Joseph R. Strayer, the concept of feudalism can also be applied to the societies of ancient Persia, ancient Mesopotamia, Egypt (Sixth to Twelfth dynasty), Muslim India, China (Zhou dynasty and end of Han dynasty) and Japan during the Shogunate. James Lee and Cameron Campbell describe the Chinese Qing dynasty (1644–1912) as also maintaining a form of serfdom.

Melvyn Goldstein described Tibet as having had serfdom until 1959, but whether or not the Tibetan form of peasant tenancy that qualified as serfdom was widespread is contested by other scholars. Bhutan is described by Tashi Wangchuk, a Bhutanese civil servant, as having officially abolished serfdom by 1959, but he believes that less than or about 10% of poor peasants were in copyhold situations.

The United Nations 1956 Supplementary Convention on the Abolition of Slavery also prohibits serfdom as a form of slavery.

Etymology

Costumes of slaves or serfs, from the sixth to the twelfth centuries, collected by H. de Vielcastel from original documents in European libraries

The word serf originated from the Middle French serf and was derived from the Latin servus ("slave"). In Late Antiquity and most of the Middle Ages, what are now called serfs were usually designated in Latin as coloni. As slavery gradually disappeared and the legal status of servi became nearly identical to that of the coloni, the term changed meaning into the modern concept of "serf". Serfdom was coined in 1850.

Dependency and the lower orders

Serfs had a specific place in feudal society, as did barons and knights: in return for protection, a serf would reside upon and work a parcel of land within the manor of his lord. Thus the manorial system exhibited a degree of reciprocity.

One rationale held that a serf "worked for all" while a knight or baron "fought for all" and a churchman "prayed for all"; thus everyone had a place. The serf was the worst fed and rewarded, but at least he had his place and, unlike slaves, had certain rights in land and property.

A lord of the manor could not sell his serfs as a Roman might sell his slaves. On the other hand, if he chose to dispose of a parcel of land, the serfs associated with that land stayed with it to serve their new lord; simply speaking, they were implicitly sold in mass and as a part of a lot. This unified system preserved for the lord long-acquired knowledge of practices suited to the land. Further, a serf could not abandon his lands without permission, nor did he possess a saleable title in them.

Becoming a serf

A freeman became a serf usually through force or necessity. Sometimes the greater physical and legal force of a local magnate intimidated freeholders or allodial owners into dependency. Often a few years of crop failure, a war, or brigandage might leave a person unable to make his own way. In such a case he could strike a bargain with a lord of a manor. In exchange for gaining protection, his service was required: in labour, produce, or cash, or a combination of all. These bargains became formalized in a ceremony known as "bondage", in which a serf placed his head in the lord's hands, akin to the ceremony of homage where a vassal placed his hands between those of his overlord. These oaths bound the lord and his new serf in a feudal contract and defined the terms of their agreement.
Often these bargains were severe.

A 7th-century Anglo Saxon "Oath of Fealty" states:
By the Lord before whom this sanctuary is holy, I will to N. be true and faithful, and love all which he loves and shun all which he shuns, according to the laws of God and the order of the world. Nor will I ever with will or action, through word or deed, do anything which is unpleasing to him, on condition that he will hold to me as I shall deserve it, and that he will perform everything as it was in our agreement when I submitted myself to him and chose his will.
To become a serf was a commitment that encompassed all aspects of the serf's life.

Moreover, the children born to a serf inherited the status of the parent, and were considered born into serfdom at birth. By taking on the duties of serfdom, individuals bound not only themselves but their future progeny.

Class system

The social class of the peasantry can be differentiated into smaller categories. These distinctions were often less clear than suggested by their different names. Most often, there were two types of peasants:
  1. freemen, workers whose tenure within the manor was freehold
  2. villein
Lower classes of peasants, known as cottars or bordars, generally comprising the younger sons of villeins; vagabonds; and slaves, made up the lower class of workers.

Freemen

Freemen, or free tenants held their land by one of a variety of contracts of feudal land-tenure and were essentially rent-paying tenant farmers who owed little or no service to the lord, and had a good degree of security of tenure and independence. In parts of 11th-century England freemen made up only 10% of the peasant population, and in the rest of Europe their numbers were small.

Villeins

A villein (or villain) represented the most common type of serf in the Middle Ages. Villeins had more rights and higher status than the lowest serf, but existed under a number of legal restrictions that differentiated them from freemen. Villeins generally rented small homes, with or without land. As part of the contract with the landlord, the lord of the manor, they were expected to spend some of their time working on the lord's fields. The requirement often was not greatly onerous, contrary to popular belief, and was often only seasonal, for example the duty to help at harvest-time. The rest of their time was spent farming their own land for their own profit.

Like other types of serfs, villeins had to provide other services, possibly in addition to paying rent of money or produce. Villeins were somehow retained on their land and by unmentioned manners could not move away without their lord's consent and the acceptance of the lord to whose manor they proposed to migrate to. Villeins were generally able to hold their own property, unlike slaves. Villeinage, as opposed to other forms of serfdom, was most common in Continental European feudalism, where land ownership had developed from roots in Roman law.

A variety of kinds of villeinage existed in Europe in the Middle Ages. Half-villeins received only half as many strips of land for their own use and owed a full complement of labour to the lord, often forcing them to rent out their services to other serfs to make up for this hardship. Villeinage was not, however, a purely uni-directional exploitative relationship. In the Middle Ages, land within a lord's manor provided sustenance and survival, and being a villein guaranteed access to land, and crops secure from theft by marauding robbers. Landlords, even where legally entitled to do so, rarely evicted villeins because of the value of their labour. Villeinage was much preferable to being a vagabond, a slave, or an unlanded labourer.

In many medieval countries, a villein could gain freedom by escaping from a manor to a city or borough and living there for more than a year; but this action involved the loss of land rights and agricultural livelihood, a prohibitive price unless the landlord was especially tyrannical or conditions in the village were unusually difficult.

Bordars and cottagers

In England the Domesday Book, of 1086, uses bordarii (bordar) and cottarii (cottar) as interchangeable terms, "cottar" deriving from the native Anglo-Saxon tongue whereas "bordar" derived from the French.

Punishment with a knout. Whipping was a common punishment for Russian serfs.
 
Status-wise, the bordar or cottar ranked below a serf in the social hierarchy of a manor, holding a cottage, garden and just enough land to feed a family. In England, at the time of the Domesday Survey, this would have comprised between about 1 and 5 acres (0.4 and 2.0 hectares). Under an Elizabethan statute, the Erection of Cottages Act 1588, the cottage had to be built with at least 4 acres (0.02 km2; 0.01 sq mi) of land. However, the later Enclosures Acts (1604 onwards) removed the cottars' right to any land: "before the Enclosures Act the cottager was a farm labourer with land and after the Enclosures Act the cottager was a farm labourer without land".

The bordars and cottars did not own their draught oxen or horses. The Domesday Book showed that England comprised 12% freeholders, 35% serfs or villeins, 30% cotters and bordars, and 9% slaves.

Slaves

The last type of serf was the slave. Slaves had the fewest rights and benefits from the manor. They owned no tenancy in land, worked for the lord exclusively and survived on donations from the landlord. It was always in the interest of the lord to prove that a servile arrangement existed, as this provided him with greater rights to fees and taxes. The status of a man was a primary issue in determining a person's rights and obligations in many of the manorial court-cases of the period. Also, runaway slaves could be beaten if caught.

The United States had approximately 4 million slaves by 1860, and the British Empire had 776,000 slaves when it abolished slavery in 1834.

Duties

Reeve and serfs in feudal England, c. 1310

The usual serf (not including slaves or cottars) paid his fees and taxes in the form of seasonally appropriate labour. Usually a portion of the week was devoted to ploughing his lord's fields held in demesne, harvesting crops, digging ditches, repairing fences, and often working in the manor house.  The remainder of the serf's time he spent tending his own fields, crops and animals in order to provide for his family. Most manorial work was segregated by gender during the regular times of the year; however, during the harvest, the whole family was expected to work the fields.

A major difficulty of a serf's life was that his work for his lord coincided with, and took precedence over, the work he had to perform on his own lands: when the lord's crops were ready to be harvested, so were his own. On the other hand, the serf of a benign lord could look forward to being well fed during his service; it was a lord without foresight who did not provide a substantial meal for his serfs during the harvest and planting times. In exchange for this work on the lord's demesne, the serfs had certain privileges and rights, including for example the right to gather deadwood – an essential source of fuel – from their lord's forests.

In addition to service, a serf was required to pay certain taxes and fees. Taxes were based on the assessed value of his lands and holdings. Fees were usually paid in the form of agricultural produce rather than cash. The best ration of wheat from the serf's harvest often went to the landlord. Generally hunting and trapping of wild game by the serfs on the lord's property was prohibited. On Easter Sunday the peasant family perhaps might owe an extra dozen eggs, and at Christmas a goose was perhaps required too. When a family member died, extra taxes were paid to the lord as a form of feudal relief to enable the heir to keep the right to till what land he had. Any young woman who wished to marry a serf outside of her manor was forced to pay a fee for the right to leave her lord, and in compensation for her lost labour.

Often there were arbitrary tests to judge the worthiness of their tax payments. A chicken, for example, might be required to be able to jump over a fence of a given height to be considered old enough or well enough to be valued for tax purposes. The restraints of serfdom on personal and economic choice were enforced through various forms of manorial customary law and the manorial administration and court baron.

It was also a matter of discussion whether serfs could be required by law in times of war or conflict to fight for their lord's land and property. In the case of their lord's defeat, their own fate might be uncertain, so the serf certainly had an interest in supporting his lord.

Rights

Within his constraints, a serf had some freedoms. Though the common wisdom is that a serf owned "only his belly"—even his clothes were the property, in law, of his lord—a serf might still accumulate personal property and wealth, and some serfs became wealthier than their free neighbours, although this happened rarely. A well-to-do serf might even be able to buy his freedom.

A serf could grow what crop he saw fit on his lands, although a serf's taxes often had to be paid in wheat. The surplus he would sell at market.

The landlord could not dispossess his serfs without legal cause and was supposed to protect them from the depredations of robbers or other lords, and he was expected to support them by charity in times of famine. Many such rights were enforceable by the serf in the manorial court.

Variations

Forms of serfdom varied greatly through time and regions. In some places serfdom was merged with or exchanged for various forms of taxation.

The amount of labour required varied. In Poland, for example, it was commonly a few days per year per household in the 13th century. One day per week per household in the 14th century. Four days per week per household in the 17th century. Six days per week per household in the 18th century. Early serfdom in Poland was mostly limited on the royal territories (królewszczyzny).

"Per household" means that every dwelling had to give a worker for the required number of days. For example, in the 18th century, six people: a peasant, his wife, three children and a hired worker might be required to work for their lord one day a week, which would be counted as six days of labour.
Serfs served on occasion as soldiers in the event of conflict and could earn freedom or even ennoblement for valour in combat. Serfs could purchase their freedom, be manumitted by generous owners, or flee to towns or to newly settled land where few questions were asked. Laws varied from country to country: in England a serf who made his way to a chartered town (i.e. a borough) and evaded recapture for a year and a day obtained his freedom and became a burgher of the town.

History

Galician slaughter in 1846 was a revolt against serfdom, directed against manorial property and oppression.

Social institutions similar to serfdom were known in ancient times. The status of the helots in the ancient Greek city-state of Sparta resembled that of the medieval serfs. By the 3rd century AD, the Roman Empire faced a labour shortage. Large Roman landowners increasingly relied on Roman freemen, acting as tenant farmers, instead of slaves to provide labour.

These tenant farmers, eventually known as coloni, saw their condition steadily erode. Because the tax system implemented by Diocletian assessed taxes based on both land and the inhabitants of that land, it became administratively inconvenient for peasants to leave the land where they were counted in the census.

However, medieval serfdom really began with the breakup of the Carolingian Empire around the 10th century.[citation needed] During this period, powerful feudal lords encouraged the establishment of serfdom as a source of agricultural labor. Serfdom, indeed, was an institution that reflected a fairly common practice whereby great landlords were assured that others worked to feed them and were held down, legally and economically, while doing so.

This arrangement provided most of the agricultural labour throughout the Middle Ages. Slavery persisted right through the Middle Ages, but it was rare.

In the later Middle Ages serfdom began to disappear west of the Rhine even as it spread through eastern Europe. Serfdom reached Eastern Europe centuries later than Western Europe—it became dominant around the 15th century. In many of these countries serfdom was abolished during the Napoleonic invasions of the early 19th century, though in some it persisted until mid- or late- 19th century.

Russia

Serfdom became the dominant form of relation between Russian peasants and nobility in the 17th century. Serfdom only existed in central and southern areas of the Russian Empire. It was never established in the North, in the Urals, and in Siberia. According to the Encyclopedia of Human Rights:
In 1649 up to three-quarters of Muscovy's peasants, or 13 to 14 million people, were serfs whose material lives were barely distinguishable from slaves. Perhaps another 1.5 million were formally enslaved, with Russian slaves serving Russian masters.
Russia's over 23 million privately held serfs were freed from their lords by an edict of Alexander II in 1861. The owners were compensated through taxes on the freed serfs. State serfs were emancipated in 1866.

History of unfree labor in the United States

From Wikipedia, the free encyclopedia

The history of unfree labor in the United States encompasses to all forms of unfree labor which have occurred within the present day borders of the United States through modern times. "Unfree labor" is a generic or collective term for those work relations, in which people are employed against their will by the threat of destitution, detention, violence (including death), lawful compulsion, or other extreme hardship to themselves or to members of their families.

Many Native American tribes practiced some form of slavery before the European introduction of African slavery into North America; but none exploited slave labor on a large scale. The arrival of the Europeans ushered in the Atlantic slave trade, where Africans were sold into chattel slavery into the American continent. It lasted from the 15th through 19th centuries and was the largest legal form of unfree labor in the history of the United States, reaching 4 million slaves at its height. Slavery and involuntary servitude were made illegal through the thirteenth amendment, except as punishment for a crime. However, unfree labor still existed legally in the form of the peonage system, especially in the New Mexico territories, debt bondage, penal labor and convict leasing, and debt bondage such as the truck system, as well as many illegal forms of unfree labor, particularly sexual slavery.

Labor reforms in the 19th and 20th eventually outlawed many of these forms of labors. However, illegal unfree labor in the form of human trafficking continued to grow, and the economy continued to rely on unfree labor from abroad. Starting at the end of the 20th century, there became an increased public awareness of human trafficking. More anti-human trafficking groups began to form and anti-human trafficking laws began to be passed, though the extent of the laws and the implementation varies widely from state to state. The U.S. Justice Department estimates that 17,500 people are trafficked into the country every year, but the true figure could be higher, because of the large numbers of undocumented immigrants. Those being trafficked include young children, teenagers, men and women and can be domestic citizens or foreign nationals. According to the Department of State's statistics from 2000, there are approximately 244,000 American children and youth that are at risk for sex trafficking each year. Of these children and youth, 38,600 were originally runaways.

Traditions of Native American slavery

Statue representing Sacagawea (ca. 1788–1812), a Lemhi Shoshone who was taken captive by the Hidatsa people and sold to Toussaint Charbonneau

Native American groups often enslaved war captives whom they primarily used for small-scale labor. Some, however, were used in ritual sacrifice. While little is known, there is little evidence that the slaveholders considered the slaves as racially inferior; they came from other Native American tribes and were casualties of war. Native Americans did not buy and sell captives in the pre-colonial era, although they sometimes exchanged enslaved individuals with other tribes in peace gestures or in exchange for redeeming their own members. The word "slave" may not accurately apply to such captive people. Most of these so-called Native American slaves tended to live on the fringes of Native American society and were slowly integrated into the tribe.

In many cases, new tribes adopted captives to replace warriors killed during a raid. Warrior captives were sometimes made to undergo ritual mutilation or torture that could end in death as part of a grief ritual for relatives slain in battle. Some Native Americans would cut off one foot of captives to keep them from running away. Others allowed enslaved male captives to marry the widows of slain husbands. The Creek, who engaged in this practice and had a matrilineal system, treated children born of slaves and Creek women as full members of their mothers' clans and of the tribe, as property and hereditary leadership passed through the maternal line. The children did not have slave status. More typically, tribes took women and children for captives for adoption, as they tended to adapt more easily into new ways.

Several tribes held captives as hostages for payment. Various tribes also practiced debt slavery or imposed slavery on tribal members who had committed crimes; full tribal status would be restored as the enslaved worked off their obligations to the tribal society. Other slave-owning tribes of North America included the Comanche of Texas, the Creek of Georgia; the fishing societies, such as the Yurok, who lived in Northern California; the Pawnee, and the Klamath.

When the Europeans made contact with the Native Americans, they began to participate in the slave trade. Native Americans, in their initial encounters with the Europeans, attempted to use their captives from enemy tribes as a “method of playing one tribe against another” in an unsuccessful game of divide and conquer.

The Haida and Tlingit who lived along southeast Alaska's coast were traditionally known as fierce warriors and slave-traders, raiding as far as California. In their society, slavery was hereditary after slaves were taken as prisoners of war. Among some Pacific Northwest tribes, as many as one-fourth of the population were slaves.

Legal chattel slavery

An animation showing when United States territories and states forbade or allowed slavery, 1789–1861.

By the time of the American Revolution (1775–1783), the status of slave had been institutionalized as a racial caste associated with African ancestry. When the United States Constitution was ratified in 1789, a relatively small number of free people of color were among the voting citizens. During and immediately following the Revolutionary War, abolitionist laws were passed in most Northern states and a movement developed to abolish slavery. Most of these states had a higher proportion of free labor than in the South and economies based on different industries. They abolished slavery by the end of the 18th century, some with gradual systems that kept adults as slaves for two decades. But the rapid expansion of the cotton industry in the Deep South after the invention of the cotton gin, greatly increased demand for slave labor, and the Southern states continued as slave societies. They attempted to extend slavery into the new Western territories in order to keep their share of political power in the nation; Southern leaders dreamed of annexing Cuba to be used as a slave territory. The United States was polarized over the issue of slavery, represented by the slave and free states divided by the Mason–Dixon line, which separated free Pennsylvania from slave Maryland and Delaware.

Congress under Thomas Jefferson prohibited the importation of slaves, effective in 1808, but illegal smuggling took place. Domestic slave trading, however, continued at a rapid pace, driven by labor demands from the development of cotton plantations in the Deep South. More than one million slaves were sold from the Upper South, which had a surplus of labor, and taken to the Deep South in a forced migration, splitting up many families. New communities of African-American culture were developed in the Deep South, and the total slave population in the South eventually reached 4 million before liberation.

As the West was developed for settlement, the Southern states wanted to keep a balance between the number of slave and free states, in order to maintain a political balance of power in Congress. The new territories acquired from Britain, France, and Mexico were the subject of major political compromises. By 1850, the newly rich cotton-growing South was threatening to secede from the Union, and tensions continued to rise. With Southern church ministers having adapted to supporting slavery, as modified by Christian paternalism, the largest denominations, the Baptist, Methodist and Presbyterian churches split over the issue into regional organizations of the North and South. When Abraham Lincoln won the 1860 election on a platform of no new slave states, the South broke away to form the Confederacy; the first six states to secede held the greatest number of slaves in the South. This marked the start of the Civil War, which caused a huge disruption of the slave economy, with many slaves either escaping or being liberated by the Union armies. Due to Union measures such as the Confiscation Acts and Emancipation Proclamation in 1863, the war effectively ended slavery, even before ratification of the Thirteenth Amendment in December 1865 formally ended the legal institution throughout the United States.

Other forms of legalized unfree labor

In spite of the issuance of the Emancipation Proclamation and the adoption of the Thirteenth Amendment to the United States Constitution, the road to freedom remained elusive for most former slaves in the United States. While the Constitution of the United States is the supreme law of the land, it is not self-enforcing, nor was the Emancipation Proclamation. The text and principles outlined in them were only words without enforcement, and so alone, they could not and did not abolish slavery. The enactment of the Thirteenth Amendment simply made slavery and all forms of involuntary servitude, except as punishment for crime, unconstitutional. The actual abolition of slavery – that is the full enforcement of the 13th Amendment took many decades beyond 1865 to be realized. Enforcement of the 13th amendment began during the Reconstruction period, but there were many setbacks between that time and full enforcement.

Proponents of the 13th Amendment to the Constitution knew that without legislation that codified the 13th Amendment in the form of laws and statutes along with law enforcement agencies to uphold the laws, there would be no true end to slavery, and this is the reason for the inclusion of Section 2 of the 13th Amendment authorizing Congress to establish laws upholding the amendment. The federal government also sent troops to the south to provide protection to the former slaves who were still living among their former captors.

During the Reconstruction era from January 1, 1863 to March 31, 1877, federal troops were stationed in the south specifically to keep blacks from being re-enslaved. However, in the Gilded Age that followed the withdrawal, blacks were left at the mercy of their former captors. When African Americans in the south no longer had the protection of the federal troops, whites found other ways to practice involuntary servitude. This lasted well into the 20th century, until President Lyndon B. Johnson abolished Peonage in 1966, which rapidly decreased sharecropping in every plantation nationwide. Although slavery is commonly understood to have ended with the Emancipation Proclamation, or the Thirteenth Amendment, exhaustive research conducted by journalist Douglas A. Blackmon and reported in his Pulitzer Prize winning book Slavery By Another Name shows that thousands of African Americans were re-enslaved with shocking force and brutality after the period of Reconstruction was over.

The continued involuntary servitude took various forms but the primary forms included convict leasing, peonage, and sharecropping, with the latter eventually encompassing poor whites as well and by the 1930s, they made up the vast majority. Using convict leasing programs, African American men, often guilty of no crime at all, were arrested, compelled to work without pay, repeatedly bought and sold, and coerced to do the bidding of masters. Sharecropping as it was practiced during this period often involved severe restrictions on the freedom of movement of sharecroppers who could be whipped for leaving the plantation. Both sharecropping and convict leasing were legal and tolerated by both the north and south. However, peonage was an illicit form of forced labor. Its existence was ignored by authorities while thousands of African Americans and poor Anglo Americans were subjugated and held in bondage until the mid 1960s to the late 1970s.

With the exception of cases of peonage, beyond the period of Reconstruction, the federal government took almost no action to enforce the 13th Amendment until December 1941 when President Franklin Delano Roosevelt summoned his attorney general. Five days after Pearl Harbor, at the request of the president Attorney General Francis Biddle issued Circular No. 3591 to all federal prosecutors, instructing them to actively investigate and try any case of involuntary servitude or slavery. Several months later, convict leasing was officially abolished.

During Reconstruction, it was a serious question whether slavery had been permanently abolished or whether some form of semi-slavery would appear after the Union armies left. Over time a large civil rights movement arose to bring full civil rights and equality under the law to all Americans.

Black Codes

The Black Codes were laws passed by Southern states in 1865 and 1866, after the Civil War. These laws had the intent and the effect of restricting African Americans' freedom, and of compelling them to work in a labor economy based on low wages or debt. Black Codes were part of a larger pattern of Southern whites trying to suppress the new freedom of emancipated African American slaves, the freedmen.

In the first two years after the Civil War, white dominated southern legislatures passed Black Codes modeled after the earlier slave codes. They were particularly concerned with controlling movement and labor, as slavery had given way to a free labor system. Although freedmen had been emancipated, their lives were greatly restricted by the black codes.

The term "Black Codes" was given by "negro leaders and the Republican organs", according to historian John S. Reynolds. The defining feature of the Black Codes was broad vagrancy law, which allowed local authorities to arrest freed people for minor infractions and commit them to involuntary labor.

Convict leasing

Convicts leased to harvest timber circa 1915, in Florida

With emancipation a legal reality, white Southerners were concerned with both controlling the newly freed slaves and keeping them in the labor force at the lowest level. The system of convict leasing began during Reconstruction and was fully implemented in the 1880s and officially ending in the last state, Alabama, in 1928. It persisted in various forms until it was abolished in 1942 by President Franklin D. Roosevelt during World War II, several months after the attack on Pearl Harbor involved the U.S. in the conflict. This system allowed private contractors to purchase the services of convicts from the state or local governments for a specific time period. African Americans, due to "vigorous and selective enforcement of laws and discriminatory sentencing", made up the vast majority of the convicts leased. Writer Douglas A. Blackmon writes of the system:
It was a form of bondage distinctly different from that of the antebellum South in that for most men, and the relatively few women drawn in, this slavery did not last a lifetime and did not automatically extend from one generation to the next. But it was nonetheless slavery – a system in which armies of free men, guilty of no crimes and entitled by law to freedom, were compelled to labor without compensation, were repeatedly bought and sold, and were forced to do the bidding of white masters through the regular application of extraordinary physical coercion.
The constitutional basis for convict leasing is that the Thirteenth Amendment, while abolishing slavery and involuntary servitude generally, expressly permits it as a punishment for crime.

Peonage

Peonage is a type of involuntary servitude. After the American Civil War of 1861–1865, peonage developed in the Southern United States. Poor white farmers and formerly enslaved African Americans known as freedmen who could not afford their own land would farm another person's land, exchanging labor for a share of the crops. This was called sharecropping and initially the benefits were mutual. The land owner would pay for the seeds and tools in exchange for a percentage of the money earned from the crop and a portion of the crop. As time passed, many landowners began to abuse this system. The landowner would force the tenant farmer or sharecropper to buy seeds and tools from the land owner’s store, which often had inflated prices. As sharecroppers were often illiterate, they had to depend on the books and accounting by the landowner and his staff. Other tactics included debiting expenses against the sharecropper's profits after the crop was harvested and "miscalculating" the net profit from the harvest, thereby keeping the sharecropper in perpetual debt to the landowner. Since the tenant farmers could not offset the costs, they were forced into involuntary labor due to the debts they owed the land owner.

After the U.S. Civil War, the South passed "Black Codes", laws that tried to control freed black slaves. Vagrancy laws were included in these Black Codes. Homeless or even unemployed African Americans who were between jobs, most of whom were former slaves were arrested and fined as vagrants. Usually lacking the resources to pay the fine, the "vagrant" was sent to county labor or hired out to a private employer. The authorities also tried to restrict the movement of freedmen between rural areas and cities, to between towns. Under such laws, local officials arbitrarily arrested tens of thousands of freedmen and charged them with fines and court costs of their cases. White merchants, farmers, and business owners could pay their debts and the prisoner had to work off the debt. Prisoners were leased as laborers to owners and operators of coal mines, lumber camps, brickyards, railroads, quarries, and farm plantations, with the revenues for their labor going to the states. Government officials leased imprisoned blacks and whites to small town entrepreneurs, provincial farmers, and dozens of corporations looking for cheap labor. Their labor was repeatedly bought and sold for decades after the official abolition of American slavery.

Southern states and private businesses boomed with this free labor. It is estimated that up to 40% of blacks in the South were trapped in peonage in the beginning of the 20th century. Overseers and owners often used severe deprivation, beatings, whippings, and other abuse as "discipline" against the workers.

Cartoon of Indictment of US Planters and negro peonage

After the Civil War, the Thirteenth Amendment prohibited involuntary servitude such as peonage for all but convicted criminals. Congress also passed various laws to protect the constitutional rights of Southern blacks, making those who violated such rights by conspiracy, by trespass, or in disguise, guilty of an offence punishable by ten years in prison and civil disability. Unlawful use of state law to subvert rights under the Federal Constitution was made punishable by fine or a year's imprisonment. Until the involuntary servitude was abolished by president Lyndon B. Johnson in 1966, sharecroppers in Southern states were forced to continue working to pay off old debts or to pay taxes. Southern states allowed this in order to preserve sharecropping.

The following reported Court cases involving Peonage:
  • 1903 South Dakota a 17-year-old girl was reported to have been sold into peonage at the age of two by her own father
  • 1904 Alabama ten persons Indicted for holding black and white persons in peonage
  • 1906 John W. Pace of Alabama-the "father" of Peonage; pardoned by his friend President Theodore Roosevelt.
  • 1906 Five officials of Jackson Lumber Company sentenced in Pensacola Florida to seven years in prison.
  • 1916 Edward McCree of Georgia Legislature; owner of 37,000 acres of land; indicted on 13 charges. pleaded guilty to first charge and paid a $1,000.00 fine.
  • 1916 two men found guilty in Lexington County South Carolina of trying to force a white man into peonage; each fined $500.00 and sentenced to a year and day in jail
  • 1921 Hawaiian Sugar Plantation owners try to Legalize peonage of Chinese workers.
  • 1921, Georgia farmer John S. Williams and his black overseer Clyde Manning were convicted in the deaths of 11 blacks working as peons in Williams' farm. Williams was the only white farmer convicted for killing black peons between 1877 and 1966.
  • 1922 Convicted in 1921 for hopping a freight train without a ticket in Florida, Martin Tabert of North Dakota becomes part of State Convict leasing; he died Feb 1, 1922 for being whipped for being unable to work due to illness. Reports of his death lead to outlawing of convict leasing in Florida in 1923.
Because of the Spanish tradition, peonage was still widespread in New Mexico Territory after the American Civil War. Because New Mexico laws supported peonage, the US Congress passed an anti-peonage law on March 2, 1867 as follows: "Sec 1990. The holding of any person to service or labor under the system known as peonage is abolished and forever prohibited in the territory of New Mexico, or in any other territory or state of the United States; and all acts, laws, … made to establish, maintain, or enforce, directly or indirectly, the voluntary or involuntary service or labour of any persons as peons, in liquidation of any debt or obligation, or otherwise, are declared null and void." The current version of this statute is codified at Chapter 21-I of 42 U.S.C. § 1994 and makes no specific mention of New Mexico.

With the Peonage Act of 1867, Congress abolished "the holding of any person to service or labor under the system known as peonage", specifically banning "the voluntary or involuntary service or labor of any persons as peons, in liquidation of any debt or obligation, or otherwise."

In 1939, the Department of Justice created the Civil Rights Section, which focused primarily on First Amendment and labor rights. The increasing scrutiny of totalitarianism in the lead-up to World War II brought increased attention to issues of slavery and involuntary servitude, abroad and at home. The U.S. sought to counter foreign propaganda and increase its credibility on the race issue by combatting the Southern peonage system. Under the leadership of Attorney General Francis Biddle, the Civil Rights Section invoked the constitutional amendments and legislation of the Reconstruction Era as the basis for its actions.

In 1947, the DOJ successfully prosecuted Elizabeth Ingalls for keeping domestic servant Dora L. Jones in conditions of slavery. The court found that Jones "was a person wholly subject to the will of defendant; that she was one who had no freedom of action and whose person and services were wholly under the control of defendant and who was in a state of enforced compulsory service to the defendant." The Thirteenth Amendment enjoyed a swell of attention during this period, but from Brown v. Board (1954) until Jones v. Alfred H. Mayer Co. (1968) it was again eclipsed by the Fourteenth Amendment.

Truck system

A truck system, in the specific sense in which the term is used by labor historians, refers to an unpopular or even exploitative form of payment associated with small, isolated and/or rural communities, in which workers or self-employed small producers are paid in either: goods, a form of payment known as truck wages, or; tokens, private currency or direct credit, to be used at a company store, owned by their employers. A specific kind of truck system, in which credit advances are made against future work is known as debt bondage.

Under this system, workers were not paid cash; rather they were paid with non-transferable credit vouchers which could be exchanged only for goods sold at the company store. This made it impossible for workers to store up cash savings. Workers also usually lived in company-owned dormitories or houses, the rent for which was automatically deducted from their pay. In the United States the truck system and associated debt bondage persisted until the strikes of the newly formed United Mine Workers and affiliated unions forced an end to such practices.

Sexual slavery

Under chattel slavery

Three Young White Men and a Black Woman (1632) by Christiaen van Couwenbergh.

From the beginning of African slavery in the North American colonies, slaves were often viewed as property, rather than people. Slave women were often raped by white overseers, planter's younger sons before they married, and other white men associated with the slaveholders. Some were sold into brothels outright. Plaçage, a formalized system of concubinage among slave women or free people of color, developed in Louisiana and particularly New Orleans by the 18th century.

Slave breeding was the attempt by a slave-owner to influence the reproduction of his slaves for profit. It included forced sexual relations between male and female slaves, encouraging slave pregnancies, sexual relations between master and slave to produce slave children and favoring female slaves who had many children. The historian E. Franklin Frazier, in his book The Negro Family, stated that "there were masters who, without any regard for the preferences of their slaves, mated their human chattel as they did their stock". Ex-slave Maggie Stenhouse remarked, "Durin' slavery there were stockmen. They was weighed and tested. A man would rent the stockman and put him in a room with some young women he wanted to raise children from."

Many female slaves (known as "fancy maids") were sold at auction into concubinage or prostitution, which was called the "fancy trade". Concubine slaves were the only female slaves who commanded a higher price than skilled male slaves.

In Louisiana

A print depicting 'comfort women' embarking unwillingly for the Americas

The plaçage system developed from the predominance of men among early colonial populations, who took women as consorts from Native Americans and enslaved Africans. In this period there was a shortage of European women, as the colonies were dominated in the early day by male explorers and colonists. Given the harsh conditions in Louisiana, persuading women to follow the men was not easy. France sent females convicted along with their debtor husbands, and in 1719, deported 209 women felons "who were of a character to be sent to the French settlement in Louisiana". France also relocated young women orphans known as King's Daughters (French: filles du roi) to their colonies for marriage: to both Canada and Louisiana.

Through warfare and raids, Native American women were often captured to be traded, sold, or taken as wives. At first, the colony generally imported male Africans to use as slave labor because of the heavy work of clearing to develop plantations. Over time, it also imported African female slaves. Marriage between the races was forbidden according to the Code Noir of the eighteenth century, but interracial sex continued. The upper class European men during this period often did not marry until their late twenties or early thirties. Premarital sex with an intended white bride, especially if she was of high rank, was not permitted socially.

White male colonists, often the younger sons of noblemen, military men, and planters, who needed to accumulate some wealth before they could marry, took women of color as consorts before marriage. Merchants and administrators also followed this practice if they were wealthy enough. A white man might rape a slave as young as twelve.

Post-emancipation

After slaves were emancipated, many states passed anti-miscegenation laws, which prohibited interracial marriage between whites and non-whites. But this did not stop white men from taking sexual advantage of black women by using their social positions of power under the Jim Crow system and white supremacy, or in other parts of the country by ordinary power and wealth dynamics.
During the California Gold Rush in the late 1840s, Chinese merchants transported thousands of young Chinese girls, including babies, from China to the United States and sold them into sexual slavery within the red light district of San Francisco. Girls could be bought for as little as $40 (about $1104 in 2013 dollars) in Guangzhou, and sold for $400 (about $11,040 in 2013 dollars) in the United States. Many of these girls were forced into opium addiction and lived their entire lives as prostitutes.

A few captives from Native American tribes who were used as slaves were not freed when African-American slaves were emancipated. "Ute Woman", a Ute captured by the Arapaho and later sold to a Cheyenne, was one example. Used as a prostitute for sale to American soldiers at Cantonment in the Indian Territory, she lived in slavery until about 1880 when she died of a hemorrhage resulting from "excessive sexual intercourse".

White slavery

Ad warning about white slavery

By the 19th century, most of America's cities had a designated, legally protected area of prostitution. Increased urbanization and young women entering the workforce led to greater flexibility in courtship without supervision. It is in this changing social sphere that the panic over "white slavery" began. This term referred to women being kidnapped for the purposes of prostitution.

Numerous communities appointed vice commissions to investigate the extent of local prostitution, whether prostitutes participated in it willingly or were forced into it and the degree to which it was organized by any cartel-type organizations. The second significant action at the local levels was to close the brothels and the red light districts. From 1910 to 1913, city after city withdrew this tolerance and forced the closing of their brothels. Opposition to openly practiced prostitution had been growing steadily throughout the last decades of the 19th century. The federal government's response to the moral panic was the Mann Act. The purpose of the act was to make it a crime to coerce transportation of unwilling women. The statute made it a crime to "transport or cause to be transported, or aid to assist in obtaining transportation for" or to "persuade, induce, entice or coerce" a woman to travel.

Ad warning about the use of ice cream parlors to traffic women
 
According to historian Mark Thomas Connelly, "a group of books and pamphlets appeared announcing a startling claim: a pervasive and depraved conspiracy was at large in the land, brutally trapping and seducing American girls into lives of enforced prostitution, or 'white slavery'. These white slave narratives, or white-slave tracts, began to circulate around 1909." Such narratives often portrayed innocent girls "victimized by a huge, secret and powerful conspiracy controlled by foreigners", as they were drugged or imprisoned and forced into prostitution.

This excerpt from The War on the White Slave Trade was written by the United States District Attorney in Chicago:
One thing should be made very clear to the girl who comes up to the city, and that is that the ordinary ice cream parlor is very likely to be a spider's web for her entanglement. This is perhaps especially true of those ice cream saloons and fruit stores kept by foreigners. Scores of cases are on record where young girls have taken their first step towards "white slavery" in places of this character.
Suffrage activists, especially Harriet Burton Laidlaw and Rose Livingston, worked in New York City's Chinatown and in other cities to rescue young white and Chinese girls from forced prostitution, and helped pass the Mann Act to make interstate sex trafficking a federal crime. Livingston publicly discussed her past as a prostitute and claimed to have been abducted and developed a drug problem as a sex slave in a Chinese man's home, narrowly escaped and experienced a Christian conversion narrative. Other groups like the Woman's Christian Temperance Union and Hull House focused on children of prostitutes and poverty in community life while trying to pass protective legislation. The American Purity Alliance also supported the Mann Act.

Rose Livingston, known as the Angel of Chinatown, worked to free slaves in New York City

In 1910, the US Congress passed the White Slave Traffic Act of 1910 (better known as the Mann Act), which made it a felony to transport women across state borders for the purpose of "prostitution or debauchery, or for any other immoral purpose". Its primary stated intent was to address prostitution, immorality, and human trafficking particularly where it was trafficking for the purposes of prostitution, but the ambiguity of "immoral purpose" effectively criminalized interracial marriage and banned single women from crossing state borders for morally wrong acts. As more women were being trafficked from foreign countries, the US began passing immigration acts to curtail aliens from entering the country. Several acts such as the Emergency Quota Act of 1921 and Immigration Act of 1924 were passed to prevent emigrants from Europe and Asia from entering the United States. Following the banning of immigrants during the 1920s, human trafficking was not considered a major issue until the 1990s.

The 1921 Convention set new goals for international efforts to stem human trafficking, primarily by giving the anti-trafficking movement further official recognition, as well as a bureaucratic apparatus to research and fight the problem. The Advisory Committee on the Traffic of Women and Children was a permanent advisory committee of the League. Its members were nine countries, and several non-governmental organizations. An important development was the implementation of a system of annual reports of member countries. Member countries formed their own centralized offices to track and report on trafficking of women and children. The advisory committee also worked to expand its research and intervention program beyond the United States and Europe. In 1929, a need to expand into the Near East (Asia Minor), the Middle East and Asia was acknowledged. An international conference of central authorities in Asia was planned for 1937, but no further action was taken during the late 1930s.

Labor trafficking

According to the National Human Rights Center in Berkeley, California, there are currently about 10,000 forced laborers in the U.S., around one-third of whom are domestic servants and some portion of whom are children. In reality, this number could be far higher due to the difficulty in getting exact numbers of victims, due to the secretive nature of human trafficking. The U.S. government only keeps a count of survivors, defined as victims of severe instances of human trafficking, who have been assisted by the government in acquiring immigration benefits. Research at San Diego State University estimates that there are 2.4 million victims of human trafficking among illegal Mexican immigrants. On the other hand, it could be far lower—and possibly approach zero—since there are virtually no arrests for this.[citation needed] Research by the Urban Institute says that law enforcement agencies do not prioritize labor trafficking cases, were reluctant to help victims obtain authorization to legally remain in the United States, and felt there was not enough evidence to corroborate victim statements.

In 2014, the National Human Trafficking Resource Center reported 990 cases of forced labor trafficking in the US, including 172 which also involved sex trafficking. The most common types of labor trafficking included domestic work, traveling sales crews, agriculture/farms, restaurant/food service, health and beauty services, begging, retail, landscaping, hospitality, construction, carnivals, elder care, forestry, manufacturing, and housekeeping.

Lie point symmetry

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