Search This Blog

Monday, February 12, 2024

Insects as food

From Wikipedia, the free encyclopedia
Whole, fried edible insects as street food in Germany
Whole, steamed silkworm pupae as street food in South Korea (beondegi)

Insects as food or edible insects are insect species used for human consumption. Over 2 billion people are estimated to eat insects on a daily basis. Globally, more than 2,000 insect species are considered edible, though far fewer are discussed for industrialized mass production and regionally authorized for use in food. Many insects are highly nutritious, though nutritional content depends on species and other factors such as diet and age.] Insects offer a wide variety of flavors and are commonly consumed whole or pulverized for use in dishes and processed food products such as burger patties, pasta, or snacks. Like other foods, there can be risks associated with consuming insects, such as allergic reactions. As commercial interest in insects as food grows, countries are introducing new regulatory frameworks to oversee their production, processing, marketing, and consumption.dible insects

Frequently consumed insect species

Human consumption of 2096 different insect species has been documented (2111 if spiders are included).he table below ranks insect order by number and percentage of confirmed species consumed and presents each insect orders' percentage of known insect species diversity. With the exceptions of orders Orthoptera and Diptera, there is close alignment between species diversity and consumption, suggesting that humans tend to eat those insects that are most available.

Human insect consumption by taxonomic order
Insect order Common name Number of confirmed species consumed by humans Percentage of insect species consumed by humans (%) Percentage of total insect species (%)
Coleoptera Beetles 696 33 38
Lepidoptera Butterflies, moths 362 17 16
Hymenoptera Bees, wasps, ants 321 15 12
Orthoptera Grasshoppers, locusts, crickets 278 13 2
Hemiptera Cicadas, leafhoppers, planthoppers, scale insects, true bugs 237 11 10
Odonata Dragonflies 61 3 1
Blattodea Termites, cockroaches 59 3 1
Diptera Flies 37 2 15
Others - 45 2 6

Geography of insect consumption

Number of edible insect species per country

Insect species consumption varies by region due to differences in environment, ecosystems, and climate. The number of insect species consumed by country is highest in equatorial and sub-tropical regions, a reflection of greater insect abundance and biodiversity observed at lower latitudes and their year-round availability.

For a list of edible insects consumed locally see: List of edible insects by country.

Edible insects for industrialized mass production

To increase consumer interest in Western markets such as Europe and North America, insects have been processed into a non‐recognizable form, such as powders or flour. Policymakers, academics, as well as large-scale insect food producers such as Entomofarms in Canada, Aspire Food Group in the United States, Protifarm and Protix in the Netherlands, and Bühler Group in Switzerland, focus on seven insect species suitable for human consumption as well as industrialized mass production:

Nutritional profile

Freeze-dried mealworms and buffalo worms (lesser mealworm)

The nutritional profiles of edible insects are highly variable given the large number of species consumed. In addition to species differences, nutritional content can be affected by geographic origin and production method (wild or farmed), diet, age, development stage, and sex. For instance, female house crickets (Acheta domestica) contain more fat than males, while males contain more protein than females.

Some insects (e.g. crickets, mealworms) are a source of complete protein and provide similar essential amino acid levels as soybeans, though less than casein. They have dietary fiber, essential minerals, vitamins such as B12, riboflavin and vitamin A, and include mostly unsaturated fat.

Locusts contain between 8 and 20 milligrams of iron for every 100 grams of raw locust, whereas beef contains roughly 6 milligrams of iron in the same amount of meat. Crickets are also very efficient in terms of nutrients. For every 100 grams of substance crickets contain 12.9 grams of protein, 121 calories, and 5.5 grams of fat. Beef contains more protein, containing 23.5 grams in 100 grams of substance, but also has roughly triple the calories and four times the amount of fat as crickets do in 100 grams.

Nutritional value
per 100 g
Mealworms
(Tenebrio molitor)
Buffalo worms
(Alphitobius diaperinus)
House crickets
(Acheta domesticus)
Migratory locust
(Locusta migratoria)
Energy 550 kcal / 2303 kJ 484 kcal / 2027 kJ 458 kcal / 1918 kJ 559 kcal / 2341 kJ
Fat
Of which saturated fatty acids
37,2 g
9 g
24,7 g
8 g
18,5 g
7 g
38,1 g
13,1 g
Carbohydrates
Of which sugars
5,4 g
0 g
6,7 g
0 g
0 g
0 g
1,1 g
0 g
Protein 45,1 g 56,2 g 69,1 g 48,2 g
Salt 0,37 g 0,38 g 1,03 g 0,43 g

Organoleptic characteristics

Chapulines, a popular edible grasshopper of Mexico.

The organoleptic characteristics of edible insects vary between species and are influenced by environment. For instance, aquatic edible insects such as water boatmen (family Corixidae) and dragonfly larvae have a fish flavor, while diving beetles taste more like clams. Environment is not always a predictor of flavor, as terrestrial edible insects may also exhibit fish-like flavors (e.g. crickets, grasshoppers). Over 400 volatile compounds responsible for the aroma and flavor of edible insects have been identified. Pheromone chemicals contribute to pungent aromas and flavors in some species and the presence of organic acids (like formic acid in ants) makes some species taste sour. Organoleptic characteristics are dependent on the development stage of the insect (egg, larva, pupa, nymph, or adult) and may change significantly as an insect matures. For example, texture can change from soft to crunchy as an insect develops from larva to adult due to increasing exoskeletal chitin. Cooking method is considered the strongest influence on the final flavor of edible insects. Wet-cooking methods such as scalding or steaming, remove pheromones and odor compounds, resulting in a milder flavor, while dry-cooking methods such as frying and roasting, introduce more complex flavors.

The table below provides common flavor descriptors for a selection of edible insects. Flavors will vary with preparation method (e.g. raw, dried, fried, etc.). Insect development stage is provided when possible.

Flavor descriptors of a selection of edible insects
Insect Scientific name Development stage Flavor
Agave worm (white) Aegiale hesperiaris Larvae Cracklings
Agave worm (red) Comadia redtenbacheri Larvae Spicy
Ants Family Formicidae Adult Sweet, nutty
Carpenter ant Camponotus spp. Adult Charred lemon
Wood ant Formica spp. Adult Kaffir lime
Black witch moth Ascalapha odorata Larvae Herring
Cockroach Order Blattodea - Mushroom
Cricket Superfamily Grylloidea Adult Fish
Corn earworm Helicoverpa zea Larvae Sweet corn
Dragonfly Infraorder Anisoptera Larvae Fish
Grasshopper Suborder Caelifera Adult Fish
Honey bee Apis spp. Brood Butter, milk, herbal, vegetal, meaty, mushroom
Mealworm Tenebrio molitor - Nutty (larvae); whole wheat bread (adult)
Mealybug Family Pseudococcidae - Fried potato
Stinkbug Family Pentatomidae Adult Apple
Termite Infraorder Isoptera Adult Nutty
Treehopper Family Membracidae - Avocado, zucchini
Wasp Suborder Apocrita - Pine nut
Water boatmen Family Corixidae - Caviar (egg); fish, shrimp (adult)

Farming, production, and processing

Cricket Shelter Modular Edible Insect Farm, designed by Terreform ONE
Crickets
Crickets being raised for human consumption

Edible insects are raised as livestock in specialized insect farms. In North American as well as European countries such as the Netherlands or Belgium, insects are produced under strict food law and hygiene standards for human consumption.

Conditions such as temperature, humidity, feed, water sources, and housing, vary depending on the insect species. The insects are raised from eggs to larvae status (mealworms, lesser mealworms) or to their mature form (crickets, locusts) in industrialized insect farms and then killed via temperature control. Culled insects may be freeze-dried and packed whole, or pulverized to insect powder (insect flour) to be used in other food products such as baked goods or snacks.

In addition to nutritional composition and digestibility, insect species are selected for ease of rearing by the producer based on factors such as disease susceptibility, feed conversion efficiency, rate of development, and generational turnover.

Insect food products

The following processed foods are produced in North America (including Canada), and the EU:

  • Insect flour: Pulverized, freeze-dried insects (e.g., cricket flour).
  • Insect burger: Hamburger patties made from insect powder / insect flour (mainly from mealworms or from house cricket) and other ingredients.
  • Insect fitness bars: Protein bars containing insect powder (mostly house crickets).
  • Insect pasta: Pasta made of wheat flour, fortified with insect flour (house crickets or mealworms).
  • Insect bread (Finnish Sirkkaleipä): Bread baked with insect flour (mostly house crickets).
  • Insect snacks: Crisps, flips or small snacks (bites) made with insect powder and other ingredients.

Food and drink companies such as the Australian brewery Bentspoke Brewing Co and the South African startup Gourmet Grubb have introduced insect-based beer, a milk alternative, and insect ice cream.

Food safety

Diagram of risk factors associated with the consumption of edible insects.

Like other foods, the consumption of insects presents health risks stemming from biological, toxicological, and allergenic hazards. In general, insects harvested from the wild pose a greater risk than farmed insects, and insects consumed raw pose a greater risk than insects that are cooked before consumption. Feed substrate and growing conditions are the main factors influencing the microbiological and chemical hazards of farmed insects.

The table below combined the data from two studies published in Comprehensive Reviews in Food Science and Food Safety and summarized the potential hazards of the top five insect species consumed by humans.

Insect order Common name Hazard category Potential hazard
Coleoptera Beetle Chemical Hormones
Cyanogenic substances
Heavy metal contamination
Lepidoptera Silkworm Allergic
Chemical Thiaminase
Honeycomb moth Microbial High bacterial count
Chemical Cyanogenic substances
Hymenoptera Ant Chemical Antinutritional factors (tannin, phytate)
Orthoptera House cricket Microbial High bacterial count
Hemiptera
Parasitical Chagas disease
Diptera Black soldier fly Parasitical Myiasis

The hazards identified in the above table can be controlled in various ways. Allergens can be labelled on the package to avoid consumption by allergy-susceptible consumers. Selective farming can be used to minimize chemical hazards, whereas microbial and parasitical hazards can be controlled by cooking processes.

As a further guarantee for consumers, quality labeling has been introduced by the Entotrust programme, an independent and voluntary product certification of insect-based foods, which allows producers to communicate the safety and sustainability of their activities.

Challenges

There are challenges associated with the production, processing, and consumption of insects as food.

Production

Mass production in the insect industry is a concern due to a lack of technology and funds to efficiently harvest and produce insects. The machinery would have to house proper enclosure for each life cycle of the insect as well as the temperature control as that is key for insect development.

Processing

The availability of wild-harvested insects can be seasonally dependent. This presents a challenge, as many wild-harvested insects have a short shelf life, sometimes of only a day or two. Identifying methods of processing and storing that extend the shelf life of seasonal insects will improve the efficiency of their harvest and consumption.

Regulation and authorisation

EU

In the European Union, edible insects – whole or in parts, e.g., legs, wings, or heads – fall within the definition of novel food, given by the European Commission. Dossiers for several insect species are currently under review by the European Food Safety Authority.

In August 2018, EFSA published a first risk profile for the house cricket as food. According to a risk assessment published by EFSA on 13 January 2021, the yellow mealworm is safe for human consumption. On 2 July 2021, EFSA published another scientific opinion stating that migratory locust in frozen, dried or ground state is safe for human consumption. On 17 August 2021, EFSA published a safety assessment with view to house crickets (Acheta domesticus) stating that frozen and dried formulations from whole house crickets are safe for consumption. On 4 July 2022, EFSA published an opinion confirming the safety of frozen and freeze-dried formulations of the lesser mealworm (Alphitobius diaperinus in larval state) for human consumption.

Following EFSA's assessment, the European Commission has authorized the following edible insects as novel food in the EU:

  • Dried Tenebrio molitor larvae (mealworms) with the Commission Implementing Regulation (EU) 2021/882 of 1 June 2021 (in force on 22 June 2021).
  • Frozen, dried and powdered forms of migratory locust (Locusta migratoria) with the Commission Implementing Regulation (EU) 2021/1975 of 12 November 2021 (in force on 5 December 2021).
  • Frozen, dried and powdered forms of house cricket (Acheta domesticus) with the Commission Implementing Regulation (EU) 2022/188 of 10 February 2022.
  • Frozen, paste, dried and powder forms of lesser mealworm larvae (Alphitobius diaperinus) with the Commission Implementing Regulation (EU) 2023/58 of 5 January 2023.

Switzerland

On 1 May 2017, Switzerland approved the following insect species as food:

Under certain conditions, these may be offered to consumers whole, pulverized, or processed in food products.

UK

After the Brexit transition period, the regulation regarding edible insects changed in the United Kingdom on 21 January 2021, making them non-marketable without authorization. Insect food products that had been on the market had to be recalled. Insect food products have to be authorized by the Food Standards Agency (FSA) in a novel food authorization process. In February 2022, UK insect industry association Woven Network CIC submitted a first dossier for the authorization of house crickets (Acheta domesticus) as novel food to the FSA.

USA and Canada

In the USA and Canada, insects for human consumption are not classified as novel food and the import and sale is permitted. In the US, insect food products must comply with FDA standards and food labelling regulations (including allergy risk labelling).

Within the Federal Food, Drug, and Cosmetic Act (FD&C Act), the FDA states that "The term 'food' means (1) articles used for food or drink for man or other animals, (2) chewing gum, and (3) articles used for components of any such article." Thus, with insects falling under said category, they must be safe and may not bear any added poisonous or added deleterious substance that is unsafe. Said items may not be prepared, packed, or held under insanitary conditions, and must be produced in accordance with current Good Manufacturing Practice (GMP), regulations for manufacturing/processing, packing, or holding human food. The FD&C Act also includes requirements that pertain to the labeling of food and preventive controls, as applicable. Manufacturers have a responsibility to ensure that the food they produce for the United States market is safe and complies with the FD&C Act and FDA's implementing regulations.

In Canada, insects are subject to the same standards and guidelines as other foods sold in stores or online.

Singapore

Singapore Food Agency (SFA) has approved 16 species of insects, such as crickets, silkworms and grasshoppers, for human consumption in the second half of 2023.

The approval of the insects for consumption will be subject to food safety requirements, including treatment processes to kill pathogens and ensuring that they are packed and stored safely to prevent contamination.

Awareness

World Edible Insect Day, held on 23 October, was introduced by Belgian entrepreneur Chris Derudder in 2015 to raise awareness globally for the consumption of edible insects, with a focus on Europe, North America, and Australia.

Fusiform face area

From Wikipedia, the free encyclopedia
 
Fusiform face area
Human brain, bottom view. Fusiform face area shown in bright blue.
 
Computer-enhanced fMRI scan of a person who has been asked to look at faces. The image shows increased blood flow in cerebral cortex that recognizes faces (FFA).

The fusiform face area (FFA, meaning spindle-shaped face area) is a part of the human visual system (while also activated in people blind from birth) that is specialized for facial recognition. It is located in the inferior temporal cortex (IT), in the fusiform gyrus (Brodmann area 37).

Structure

The FFA is located in the ventral stream on the ventral surface of the temporal lobe on the lateral side of the fusiform gyrus. It is lateral to the parahippocampal place area. It displays some lateralization, usually being larger in the right hemisphere.

The FFA was discovered and continues to be investigated in humans using positron emission tomography (PET) and functional magnetic resonance imaging (fMRI) studies. Usually, a participant views images of faces, objects, places, bodies, scrambled faces, scrambled objects, scrambled places, and scrambled bodies. This is called a functional localizer. Comparing the neural response between faces and scrambled faces will reveal areas that are face-responsive, while comparing cortical activation between faces and objects will reveal areas that are face-selective.

Function

The human FFA was first described by Justine Sergent in 1992 and later named by Nancy Kanwisher in 1997 who proposed that the existence of the FFA is evidence for domain specificity in the visual system. Studies have recently shown that the FFA is composed of functional clusters that are at a finer spatial scale than prior investigations have measured. Electrical stimulation of these functional clusters selectively distorts face perception, which is causal support for the role of these functional clusters in perceiving the facial image. While it is generally agreed that the FFA responds more to faces than to most other categories, there is debate about whether the FFA is uniquely dedicated to face processing, as proposed by Nancy Kanwisher and others, or whether it participates in the processing of other objects. The expertise hypothesis, as championed by Isabel Gauthier and others, offers an explanation for how the FFA becomes selective for faces in most people. The expertise hypothesis suggests that the FFA is a critical part of a network that is important for individuating objects that are visually similar because they share a common configuration of parts. Gauthier et al., in an adversarial collaboration with Kanwisher, tested both car and bird experts, and found some activation in the FFA when car experts were identifying cars and when bird experts were identifying birds. This finding has been replicated, and expertise effects in the FFA have been found for other categories such as chess displays and X-rays. Recently, it was found that the thickness of the cortex in the FFA predicts the ability to recognize faces as well as vehicles.

A 2009 magnetoencephalography study found that objects incidentally perceived as faces, an example of pareidolia, evoke an early (165-millisecond) activation in the FFA, at a time and location similar to that evoked by faces, whereas other common objects do not evoke such activation. This activation is similar to a face-specific ERP component N170. The authors suggest that face perception evoked by face-like objects is a relatively early process, and not a late cognitive reinterpretation phenomenon.

One case study of agnosia provided evidence that faces are processed in a special way. A patient known as C. K., who suffered brain damage as a result of a car accident, later developed object agnosia. He experienced great difficulty with basic-level object recognition, also extending to body parts, but performed very well at recognizing faces. A later study showed that C. K. was unable to recognize faces that were inverted or otherwise distorted, even in cases where they could easily be identified by normal subjects. This is taken as evidence that the fusiform face area is specialized for processing faces in a normal orientation.

Studies using functional magnetic resonance imaging and electrocorticography have demonstrated that activity in the FFA codes for individual faces and the FFA is tuned for behaviorally relevant facial features. An electrocorticography study found that the FFA is involved in multiple stages of face processing, continuously from when people see a face until they respond to it, demonstrating the dynamic and important role the FFA plays as part of the face perception network.

Another study found that there is stronger activity in the FFA when a person sees a familiar face as opposed to an unfamiliar one. Participants were shown different pictures of faces that either had the same identity, familiar, or faces with separate identities, or unfamiliar. It found that participants were more accurate at matching familiar faces than unfamiliar ones. Using an fMRI, they also found that the participants that were more accurate in identifying familiar faces had more activity in their right fusiform face area and participants that were poor at matching had less activity in their right fusiform area.

In 2020, scientists showed the area is also activated in people born blind.

History

Function and controversy

The fusiform face area (FFA) is a part of the brain located in the fusiform gyrus with a debated purpose. Some researchers believe that the FFA is evolutionary purposed for face perception. Others believe that the FFA discriminates between any familiar stimuli.

Psychologists debate whether the FFA is activated by faces for an evolutionary or expertise reason. The conflicting hypotheses stem from the ambiguity in FFA activation, as the FFA is activated by both familiar objects and faces. A study regarding novel objects called greebles determined this phenomenon. When first exposed to greebles, a person's FFA was activated more strongly by faces than by greebles. After familiarising themselves with individual greebles or becoming a greeble expert, a person's FFA was activated equally by faces and greebles. Likewise, children with autism have been shown to develop object recognition at a similarly impaired pace as face recognition. Studies of late patients of autism have discovered that autistic people have lower neuron densities in the FFA. This raises an interesting question, however: Is the poor face perception due to a reduced number of cells or is there a reduced number of cells because autistic people seldom perceive faces? Asked simply: Are faces simply objects with which every person has expertise?

Chinese characters similar to those used in Fu et al., which elicit a response in the FFA

There is evidence supporting the FFA's evolutionary face-perception. Case studies into other dedicated areas of the brain may suggest that the FFA is intrinsically designed to recognize faces. Other studies have recognized areas of the brain essential to recognizing environments and bodies. Without these dedicated areas, people are incapable of recognizing places and bodies. Similar research regarding prosopagnosia has determined that the FFA is essential to the recognition of unique faces. However, these patients are capable of recognizing the same people normally by other means, such as voice. Studies involving language characters have also been conducted in order to ascertain the role of the FFA in face recognition. These studies have found that objects, such as Chinese characters, elicit a high response in different areas of the FFA than those areas that elicit a high response from faces. This data implies that certain areas of the FFA have evolutionary face-perception purposes.

Evidence from infants

The FFA is underdeveloped in children and does not fully develop until adolescence. This calls into question the evolutionary purpose of the FFA, as children show the ability to differentiate faces. Three-day-old babies have been shown to prefer the face of their mother. Babies as early as three months old have shown the ability to distinguish between faces. During this time, babies may exhibit the ability to differentiate between genders, with some evidence suggesting that they prefer faces of the same sex as their primary caregiver. It is theorized that, in terms of evolution, babies focus on women for food, although the preference could simply reflect a bias for the caregivers they experience. Infants do not appear to use this area for the perception of faces. Recent fMRI work has found no face selective area in the brain of infants 4 to 6 months old. However, given that the adult human brain has been studied far more extensively than the infant brain, and that infants are still undergoing major neurodevelopmental processes, it may simply be that the FFA is not located in an anatomically familiar area. It may also be that activation for many different percepts and cognitive tasks in infants is diffuse in terms of neural circuitry, as infants are still undergoing periods of neurogenesis and neural pruning; this may make it more difficult to distinguish the signal, or what we would imagine as visual and complex familiar objects (like faces), from the noise, including static firing rates of neurons, and activity that is dedicated to a different task entirely than the activity of face processing. Infant vision involves only light and dark recognition, recognizing only major features of the face, activating the amygdala. These findings question the evolutionary purpose of the FFA.

Evidence from emotions

Studies into what else may trigger the FFA validates arguments about its evolutionary purpose. There are countless facial expressions humans use that disturb the structure of the face. These disruptions and emotions are first processed in the amygdala and later transmitted to the FFA for facial recognition. This data is then used by the FFA to determine more static information about the face. The fact that the FFA is so far downstream in the processing of emotion suggests that it has little to do with emotion perception and instead deals in face perception.

Recent evidence, however, shows that the FFA has other functions regarding emotion. The FFA is differentially activated by faces exhibiting different emotions. A study has determined that the FFA is activated more strongly by fearful faces than neutral faces. This implies that the FFA has functions in processing emotion despite its downstream processing and questions its evolutionary purpose to identify faces.

Additional images

Trade

Trade involves the transfer of goods and services from one person or entity to another, often in exchange for money. Economists refer to a system or network that allows trade as a market.

An early form of trade, barter, saw the direct exchange of goods and services for other goods and services, i.e. trading things without the use of money. Modern traders generally negotiate through a medium of exchange, such as money. As a result, buying can be separated from selling, or earning. The invention of money (and letters of credit, paper money, and non-physical money) greatly simplified and promoted trade. Trade between two traders is called bilateral trade, while trade involving more than two traders is called multilateral trade.

In one modern view, trade exists due to specialization and the division of labor, a predominant form of economic activity in which individuals and groups concentrate on a small aspect of production, but use their output in trade for other products and needs. Trade exists between regions because different regions may have a comparative advantage (perceived or real) in the production of some trade-able commodity – including the production of scarce or limited natural resources elsewhere. For example, different regions' sizes may encourage mass production. In such circumstances, trading at market price between locations can benefit both locations. Different types of traders may specialize in trading different kinds of goods; for example, the spice trade and grain trade have both historically been important in the development of a global, international economy.

A picture of a busy market in Mile 12. Lagos - Nigeria
A busy market in Mile 12. Lagos - Nigeria

Retail trade consists of the sale of goods or merchandise from a very fixed location (such as a department store, boutique, or kiosk), online or by mail, in small or individual lots for direct consumption or use by the purchaser. Wholesale trade is the traffic in goods that are sold as merchandise to retailers, industrial, commercial, institutional, or other professional business users, or to other wholesalers and related subordinated services.

Historically, openness to free trade substantially increased in some areas from 1815 until the outbreak of World War I in 1914. Trade openness increased again during the 1920s but collapsed (in particular in Europe and North America) during the Great Depression of the 1930s. Trade openness increased substantially again from the 1950s onward (albeit with a slowdown during the oil crisis of the 1970s). Economists and economic historians contend that current levels of trade openness are the highest they have ever been.

Etymology

Trade is from Middle English trade ("path, course of conduct"), introduced into English by Hanseatic merchants, from Middle Low German trade ("track, course"), from Old Saxon trada ("spoor, track"), from Proto-Germanic *tradō ("track, way"), and cognate with Old English tredan ("to tread").

Commerce is derived from the Latin commercium, from cum "together" and merx, "merchandise."

History

Prehistory

Trade originated from human communication in prehistoric times. Trading was the main facility of prehistoric people, who exchanged goods and services with each other in a gift economy before the innovation of modern-day currency. Peter Watson dates the history of long-distance commerce to c. 150,000 years ago.

In the Mediterranean region, the earliest contact between cultures involved members of the species Homo sapiens, principally using the Danube river, at a time beginning 35,000–30,000 BP.

Some trace the origins of commerce to the very start of transactions in prehistoric times. Apart from traditional self-sufficiency, trading became a principal facility for prehistoric people, who bartered what they had for goods and services from each other.

The caduceus, traditionally associated with Mercury (the Roman patron-god of merchants), continues in use as a symbol of commerce.

Ancient history

Ancient Etruscan "aryballoi" terracota vessels unearthed in the 1860s at Bolshaya Bliznitsa tumulus near Phanagoria, South Russia (formerly part of the Bosporan Kingdom of Cimmerian Bosporus, present-day Taman Peninsula); on exhibit at the Hermitage Museum in Saint Petersburg

Trade is believed to have taken place throughout much of recorded human history. There is evidence of the exchange of obsidian and flint during the Stone Age. Trade in obsidian is believed to have taken place in New Guinea from 17,000 BCE.

The earliest use of obsidian in the Near East dates to the Lower and Middle paleolithic.

Robert Carr Bosanquet investigated trade in the Stone Age by excavations in 1901. Trade is believed[] to have first begun in south west Asia.

Archaeological evidence of obsidian use provides data on how this material was increasingly the preferred choice rather than chert from the late Mesolithic to Neolithic, requiring exchange as deposits of obsidian are rare in the Mediterranean region.

Obsidian provided the material to make cutting utensils or tools, although since other more easily obtainable materials were available, use was exclusive to the higher status of the tribe using "the rich man's flint". Interestingly, Obsidian has held its value relative to flint.

Early traders traded Obsidian at distances of 900 kilometres within the Mediterranean region.

Trade in the Mediterranean during the Neolithic of Europe was greatest in this material.Networks were in existence at around 12,000 BCE Anatolia was the source primarily for trade with the Levant, Iran and Egypt according to Zarins study of 1990. Melos and Lipari sources produced among the most widespread trading in the Mediterranean region as known to archaeology.

The Sari-i-Sang mine in the mountains of Afghanistan was the largest source for trade of lapis lazuli. The material was most largely traded during the Kassite period of Babylonia beginning 1595 BCE.

Later trade

Mediterranean and Near East

Ebla was a prominent trading center during the third millennia BCE, with a network reaching into Anatolia and north Mesopotamia.

A map of the Silk Road trade route between Europe and Asia

Materials used for creating jewelry were traded with Egypt since 3000 BCE. Long-range trade routes first appeared in the 3rd millennium BCE, when Sumerians in Mesopotamia traded with the Harappan civilization of the Indus Valley. The Phoenicians were noted sea traders, traveling across the Mediterranean Sea, and as far north as Britain for sources of tin to manufacture bronze. For this purpose they established trade colonies the Greeks called emporia. Along the coast of the Mediterranean, researchers have found a positive relationship between how well-connected a coastal location was and the local prevalence of archaeological sites from the Iron Age. This suggests that a location's trade potential was an important determinant of human settlements.

From the beginning of Greek civilization until the fall of the Roman Empire in the 5th century, a financially lucrative trade brought valuable spice to Europe from the far east, including India and China. Roman commerce allowed its empire to flourish and endure. The latter Roman Republic and the Pax Romana of the Roman empire produced a stable and secure transportation network that enabled the shipment of trade goods without fear of significant piracy, as Rome had become the sole effective sea power in the Mediterranean with the conquest of Egypt and the near east.

In ancient Greece Hermes was the god of trade (commerce) and weights and measures. In ancient Rome, Mercurius was the god of merchants, whose festival was celebrated by traders on the 25th day of the fifth month. The concept of free trade was an antithesis to the will and economic direction of the sovereigns of the ancient Greek states. Free trade between states was stifled by the need for strict internal controls (via taxation) to maintain security within the treasury of the sovereign, which nevertheless enabled the maintenance of a modicum of civility within the structures of functional community life.

The fall of the Roman empire and the succeeding Dark Ages brought instability to Western Europe and a near-collapse of the trade network in the western world. Trade, however, continued to flourish among the kingdoms of Africa, the Middle East, India, China, and Southeast Asia. Some trade did occur in the west. For instance, Radhanites were a medieval guild or group (the precise meaning of the word is lost to history) of Jewish merchants who traded between the Christians in Europe and the Muslims of the Near East.

Indo-Pacific

Austronesian proto-historic and historic maritime trade network in the Indian Ocean

The first true maritime trade network in the Indian Ocean was by the Austronesian peoples of Island Southeast Asia. Initiated by the indigenous peoples of Taiwan and the Philippines, the Maritime Jade Road was an extensive trading network connecting multiple areas in Southeast and East Asia. Its primary products were made of jade mined from Taiwan by Taiwanese indigenous peoples and processed mostly in the Philippines by indigenous Filipinos, especially in Batanes, Luzon, and Palawan. Some were also processed in Vietnam, while the peoples of Malaysia, Brunei, Singapore, Thailand, Indonesia, and Cambodia also participated in the massive trading network. The maritime road is one of the most extensive sea-based trade networks of a single geological material in the prehistoric world. It was in existence for at least 3,000 years, where its peak production was from 2000 BCE to 500 CE, older than the Silk Road in mainland Eurasia and the later Maritime Silk Road. The Maritime Jade Road began to wane during its final centuries from 500 CE until 1000 CE. The entire period of the network was a golden age for the diverse societies of the region.

Sea-faring Southeast Asians also established trade routes with Southern India and Sri Lanka as early as 1500 BC, ushering an exchange of material culture (like catamarans, outrigger boats, sewn-plank boats, and paan) and cultigens (like coconuts, sandalwood, bananas, and sugarcane); as well as connecting the material cultures of India and China. Indonesians, in particular were trading in spices (mainly cinnamon and cassia) with East Africa using catamaran and outrigger boats and sailing with the help of the Westerlies in the Indian Ocean. This trade network expanded to reach as far as Africa and the Arabian Peninsula, resulting in the Austronesian colonization of Madagascar by the first half of the first millennium AD. It continued up to historic times, later becoming the Maritime Silk Road.

Mesoamerica

Tajadero or axe money used as currency in Mesoamerica. It had a fixed worth of 8,000 cacao seeds, which were also used as currency.

The emergence of exchange networks in the Pre-Columbian societies of and near to Mexico are known to have occurred within recent years before and after 1500 BCE.

Trade networks reached north to Oasisamerica. There is evidence of established maritime trade with the cultures of northwestern South America and the Caribbean.

Middle Ages

During the Middle Ages, commerce developed in Europe by trading luxury goods at trade fairs. Wealth became converted into movable wealth or capital. Banking systems developed where money on account was transferred across national boundaries. Hand to hand markets became a feature of town life and were regulated by town authorities.

Western Europe established a complex and expansive trade network with cargo ships being the main carrier of goods; Cogs and Hulks are two examples of such cargo ships. Many ports would develop their own extensive trade networks. The English port city of Bristol traded with peoples from what is modern day Iceland, all along the western coast of France, and down to what is now Spain.

A map showing the main trade routes for goods within late medieval Europe

During the Middle Ages, Central Asia was the economic center of the world. The Sogdians dominated the east–west trade route known as the Silk Road after the 4th century CE up to the 8th century CE, with Suyab and Talas ranking among their main centers in the north. They were the main caravan merchants of Central Asia.

From the Middle Ages, the maritime republics, in particular Venice, Pisa and Genoa, played a key role in trade along the Mediterranean. From the 11th to the late 15th centuries, the Venetian Republic and the Republic of Genoa were major trade centers. They dominated trade in the Mediterranean and the Black Sea, having the monopoly between Europe and the Near East for centuries.

From the 8th to the 11th century, the Vikings and Varangians traded as they sailed from and to Scandinavia. Vikings sailed to Western Europe, while Varangians to Russia. The Hanseatic League was an alliance of trading cities that maintained a trade monopoly over most of Northern Europe and the Baltic, between the 13th and 17th centuries.

The Age of Sail and the Industrial Revolution

Portuguese explorer Vasco da Gama pioneered the European spice trade in 1498 when he reached Calicut after sailing around the Cape of Good Hope at the southern tip of the African continent. Prior to this, the flow of spice into Europe from India was controlled by Islamic powers, especially Egypt. The spice trade was of major economic importance and helped spur the Age of Discovery in Europe. Spices brought to Europe from the Eastern world were some of the most valuable commodities for their weight, sometimes rivaling gold.

From 1070 onward, kingdoms in West Africa became significant members of global trade. This came initially through the movement of gold and other resources sent out by Muslim traders on the Trans-Saharan trading network. Beginning in the 16th century, European merchants would purchase gold, spices, cloth, timber and slaves from West African states as part of the triangular trade. This was often in exchange for cloth, iron, or cowrie shells which were used locally as currency.

Founded in 1352, the Bengal Sultanate was a major trading nation in the world and often referred to by Europeans as the wealthiest country with which to trade.

In the 16th and 17th centuries, the Portuguese gained an economic advantage in the Kingdom of Kongo due to different philosophies of trade. Whereas Portuguese traders concentrated on the accumulation of capital, in Kongo spiritual meaning was attached to many objects of trade. According to economic historian Toby Green, in Kongo "giving more than receiving was a symbol of spiritual and political power and privilege."

In the 16th century, the Seventeen Provinces were the center of free trade, imposing no exchange controls, and advocating the free movement of goods. Trade in the East Indies was dominated by Portugal in the 16th century, the Dutch Republic in the 17th century, and the British in the 18th century. The Spanish Empire developed regular trade links across both the Atlantic and the Pacific Oceans.

Danzig in the 17th century, a port of the Hanseatic League

In 1776, Adam Smith published the paper An Inquiry into the Nature and Causes of the Wealth of Nations. It criticized Mercantilism, and argued that economic specialization could benefit nations just as much as firms. Since the division of labour was restricted by the size of the market, he said that countries having access to larger markets would be able to divide labour more efficiently and thereby become more productive. Smith said that he considered all rationalizations of import and export controls "dupery", which hurt the trading nation as a whole for the benefit of specific industries.

In 1799, the Dutch East India Company, formerly the world's largest company, became bankrupt, partly due to the rise of competitive free trade.

Berber trade with Timbuktu, 1853

19th century

In 1817, David Ricardo, James Mill and Robert Torrens showed that free trade would benefit the industrially weak as well as the strong, in the famous theory of comparative advantage. In Principles of Political Economy and Taxation Ricardo advanced the doctrine still considered the most counterintuitive in economics:

When an inefficient producer sends the merchandise it produces best to a country able to produce it more efficiently, both countries benefit.

The ascendancy of free trade was primarily based on national advantage in the mid 19th century. That is, the calculation made was whether it was in any particular country's self-interest to open its borders to imports.

John Stuart Mill proved that a country with monopoly pricing power on the international market could manipulate the terms of trade through maintaining tariffs, and that the response to this might be reciprocity in trade policy. Ricardo and others had suggested this earlier. This was taken as evidence against the universal doctrine of free trade, as it was believed that more of the economic surplus of trade would accrue to a country following reciprocal, rather than completely free, trade policies. This was followed within a few years by the infant industry scenario developed by Mill promoting the theory that the government had the duty to protect young industries, although only for a time necessary for them to develop full capacity. This became the policy in many countries attempting to industrialize and out-compete English exporters. Milton Friedman later continued this vein of thought, showing that in a few circumstances tariffs might be beneficial to the host country; but never for the world at large.

20th century

The Great Depression was a major economic recession that ran from 1929 to the late 1930s. During this period, there was a great drop in trade and other economic indicators.

The lack of free trade was considered by many as a principal cause of the depression causing stagnation and inflation. Only during World War II did the recession end in the United States. Also during the war, in 1944, 44 countries signed the Bretton Woods Agreement, intended to prevent national trade barriers, to avoid depressions. It set up rules and institutions to regulate the international political economy: the International Monetary Fund and the International Bank for Reconstruction and Development (later divided into the World Bank $ Bank for International Settlements). These organizations became operational in 1946 after enough countries ratified the agreement. In 1947, 23 countries agreed to the General Agreement on Tariffs and Trade to promote free trade.

The European Union became the world's largest exporter of manufactured goods and services, the biggest export market for around 80 countries.

21st century

Today, trade is merely a subset within a complex system of companies which try to maximize their profits by offering products and services to the market (which consists both of individuals and other companies) at the lowest production cost. A system of international trade has helped to develop the world economy but, in combination with bilateral or multilateral agreements to lower tariffs or to achieve free trade, has sometimes harmed third-world markets for local products.

Free trade

Free trade is a policy by which a government does not discriminate against imports or exports by applying tariffs or subsidies. This policy is also known as laissez-faire policy. This kind of policy does not necessarily imply because a country will then abandon all control and taxation of imports and exports.

Free trade advanced further in the late 20th century and early 2000s:

Perspectives

Protectionism

Protectionism is the policy of restraining and discouraging trade between states and contrasts with the policy of free trade. This policy often takes the form of tariffs and restrictive quotas. Protectionist policies were particularly prevalent in the 1930s, between the Great Depression and the onset of World War II.

Religion

Islamic teachings encourage trading (and condemn usury or interest).

Judeao-Christian teachings do not prohibit trade. They do prohibit fraud and dishonest measures. Historically they forbade charging interest on loans.

Development of money

A Roman denarius

The first instances of money were objects with intrinsic value. This is called commodity money and includes any commonly available commodity that has intrinsic value; historical examples include pigs, rare seashells, whale's teeth, and (often) cattle. In medieval Iraq, bread was used as an early form of money. In the Aztec Empire, under the rule of Montezuma cocoa beans became legitimate currency.

Currency was introduced as standardised money to facilitate a wider exchange of goods and services. This first stage of currency, where metals were used to represent stored value, and symbols to represent commodities, formed the basis of trade in the Fertile Crescent for over 1500 years.

Numismatists have examples of coins from the earliest large-scale societies, although these were initially unmarked lumps of precious metal.

Trends

Doha rounds

The Doha round of World Trade Organization negotiations aimed to lower barriers to trade around the world, with a focus on making trade fairer for developing countries. Talks have been hung over a divide between the rich developed countries, represented by the G20, and the major developing countries. Agricultural subsidies are the most significant issue upon which agreement has been the hardest to negotiate. By contrast, there was much agreement on trade facilitation and capacity building. The Doha round began in Doha, Qatar, and negotiations were continued in: Cancún, Mexico; Geneva, Switzerland; and Paris, France, and Hong Kong.

China

Beginning around 1978, the government of the People's Republic of China (PRC) began an experiment in economic reform. In contrast to the previous Soviet-style centrally planned economy, the new measures progressively relaxed restrictions on farming, agricultural distribution and, several years later, urban enterprises and labor. The more market-oriented approach reduced inefficiencies and stimulated private investment, particularly by farmers, which led to increased productivity and output. One feature was the establishment of four (later five) Special Economic Zones located along the South-east coast.

The reforms proved spectacularly successful in terms of increased output, variety, quality, price and demand. In real terms, the economy doubled in size between 1978 and 1986, doubled again by 1994, and again by 2003. On a real per capita basis, doubling from the 1978 base took place in 1987, 1996 and 2006. By 2008, the economy was 16.7 times the size it was in 1978, and 12.1 times its previous per capita levels. International trade progressed even more rapidly, doubling on average every 4.5 years. Total two-way trade in January 1998 exceeded that for all of 1978; in the first quarter of 2009, trade exceeded the full-year 1998 level. In 2008, China's two-way trade totaled US$2.56 trillion.

In 1991 China joined the Asia-Pacific Economic Cooperation group, a trade-promotion forum. In 2001, it also joined the World Trade Organization.

International trade

International trade is the exchange of goods and services across national borders. In most countries, it represents a significant part of GDP. While international trade has been present throughout much of history (see Silk Road, Amber Road), its economic, social, and political importance have increased in recent centuries, mainly because of Industrialization, advanced transportation, globalization, multinational corporations, and outsourcing.

Empirical evidence for the success of trade can be seen in the contrast between countries such as South Korea, which adopted a policy of export-oriented industrialization, and India, which historically had a more closed policy. South Korea has done much better by economic criteria than India over the past fifty years, though its success also has to do with effective state institutions.

Trade sanctions

Trade sanctions against a specific country are sometimes imposed, in order to punish that country for some action. An embargo, a severe form of externally imposed isolation, is a blockade of all trade by one country on another. For example, the United States has had an embargo against Cuba for over 40 years. Embargoes are usually on a temporary basis. For example, Armenia put a temporary embargo on Turkish products and bans any imports from Turkey on December 31, 2020. The situation is prompted by food security concerns given Turkey's hostile attitude towards Armenia.

Fair trade

The "fair trade" movement, also known as the "trade justice" movement, promotes the use of labour, environmental and social standards for the production of commodities, particularly those exported from the Third and Second Worlds to the First World. Such ideas have also sparked a debate on whether trade itself should be codified as a human right.

Importing firms voluntarily adhere to fair trade standards or governments may enforce them through a combination of employment and commercial law. Proposed and practiced fair trade policies vary widely, ranging from the common prohibition of goods made using slave labour to minimum price support schemes such as those for coffee in the 1980s. Non-governmental organizations also play a role in promoting fair trade standards by serving as independent monitors of compliance with labeling requirements. As such, it is a form of Protectionism.

Lie group

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Lie_group In mathematics , a Lie gro...