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Saturday, September 2, 2023

Holocene

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Holocene

Holocene
0.0117 – 0 Ma
Chronology
Etymology
Name formalityFormal
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitEpoch
Stratigraphic unitSeries
Time span formalityFormal
Lower boundary definitionEnd of the Younger Dryas stadial.
Lower boundary GSSPNGRIP2 ice core, Greenland
75.1000°N 42.3200°W
Lower GSSP ratified2008
Upper boundary definitionPresent day
Upper boundary GSSPN/A
N/A
Upper GSSP ratifiedN/A

The Holocene (/ˈhɒl.əsn, --, ˈh.lə-, -l-/) is the current geological epoch. It began approximately 11,700 years before 2000 CE[a] (11,650 cal years BP, 9700 BCE or 300 HE). It follows the Last Glacial Period, which concluded with the Holocene glacial retreat. The Holocene and the preceding Pleistocene together form the Quaternary period. The Holocene has been identified with the current warm period, known as MIS 1. It is considered by some to be an interglacial period within the Pleistocene Epoch, called the Flandrian interglacial.

The Holocene corresponds with the rapid proliferation, growth and impacts of the human species worldwide, including all of its written history, technological revolutions, development of major civilizations, and overall significant transition towards urban living in the present. The human impact on modern-era Earth and its ecosystems may be considered of global significance for the future evolution of living species, including approximately synchronous lithospheric evidence, or more recently hydrospheric and atmospheric evidence of the human impact. In July 2018, the International Union of Geological Sciences split the Holocene Epoch into three distinct ages based on the climate, Greenlandian (11,700 years ago to 8,200 years ago), Northgrippian (8,200 years ago to 4,200 years ago) and Meghalayan (4,200 years ago to the present), as proposed by International Commission on Stratigraphy. The oldest age, the Greenlandian was characterized by a warming following the preceding ice age. The Northgrippian Age is known for vast cooling due to a disruption in ocean circulations that was caused by the melting of glaciers. The most recent age of the Holocene is the present Meghalayan, which began with extreme drought that lasted around 200 years.

Etymology

The word Holocene was formed from two Ancient Greek words. Holos (ὅλος) is the Greek word for "whole". "Cene" comes from the Greek word kainos (καινός), meaning "new". The concept is that this epoch is "entirely new". The suffix '-cene' is used for all the seven epochs of the Cenozoic Era.

Overview

The International Commission on Stratigraphy has defined the Holocene as starting approximately 11,700 years before 2000 CE (11,650 cal years BP, or 9,700 BCE). The Subcommission on Quaternary Stratigraphy (SQS) regards the term 'recent' as an incorrect way of referring to the Holocene, preferring the term 'modern' instead to describe current processes. It also observes that the term 'Flandrian' may be used as a synonym for Holocene, although it is becoming outdated. The International Commission on Stratigraphy, however, considers the Holocene an epoch following the Pleistocene and specifically following the last glacial period. Local names for the last glacial period include the Wisconsinan in North America, the Weichselian in Europe, the Devensian in Britain, the Llanquihue in Chile and the Otiran in New Zealand."

The Holocene can be subdivided into five time intervals, or chronozones, based on climatic fluctuations:

Note: "ka BP" means "kilo-annum Before Present", i.e. 1,000 years before 1950 (non-calibrated C14 dates)

Geologists working in different regions are studying sea levels, peat bogs and ice-core samples, using a variety of methods, with a view toward further verifying and refining the Blytt–Sernander sequence. This is a classification of climatic periods initially defined by plant remains in peat mosses. Though the method was once thought to be of little interest, based on 14C dating of peats that was inconsistent with the claimed chronozones, investigators have found a general correspondence across Eurasia and North America. The scheme was defined for Northern Europe, but the climate changes were claimed to occur more widely. The periods of the scheme include a few of the final pre-Holocene oscillations of the last glacial period and then classify climates of more recent prehistory.

Paleontologists have not defined any faunal stages for the Holocene. If subdivision is necessary, periods of human technological development, such as the Mesolithic, Neolithic, and Bronze Age, are usually used. However, the time periods referenced by these terms vary with the emergence of those technologies in different parts of the world.

According to some scholars, a third epoch of the Quaternary, the Anthropocene, has now begun. This term is used to denote the present time-interval in which many geologically significant conditions and processes have been profoundly altered by human activities. The 'Anthropocene' (a term coined by Paul J. Crutzen and Eugene Stoermer in 2000) is not a formally defined geological unit. The Subcommission on Quaternary Stratigraphy of the International Commission on Stratigraphy has a working group to determine whether it should be. In May 2019, members of the working group voted in favour of recognizing the Anthropocene as formal chrono-stratigraphic unit, with stratigraphic signals around the mid-twentieth century CE as its base. The exact criteria have still to be determined, after which the recommendation also has to be approved by the working group's parent bodies (ultimately the International Union of Geological Sciences).

Geology

The Holocene is a geologic epoch that follows directly after the Pleistocene. Continental motions due to plate tectonics are less than a kilometre over a span of only 10,000 years. However, ice melt caused world sea levels to rise about 35 m (115 ft) in the early part of the Holocene and another 30 m in the later part of the Holocene. In addition, many areas above about 40 degrees north latitude had been depressed by the weight of the Pleistocene glaciers and rose as much as 180 m (590 ft) due to post-glacial rebound over the late Pleistocene and Holocene, and are still rising today.

The sea-level rise and temporary land depression allowed temporary marine incursions into areas that are now far from the sea. For example, marine fossils from the Holocene epoch have been found in locations such as Vermont and Michigan. Other than higher-latitude temporary marine incursions associated with glacial depression, Holocene fossils are found primarily in lakebed, floodplain, and cave deposits. Holocene marine deposits along low-latitude coastlines are rare because the rise in sea levels during the period exceeds any likely tectonic uplift of non-glacial origin.

Post-glacial rebound in the Scandinavia region resulted in a shrinking Baltic Sea. The region continues to rise, still causing weak earthquakes across Northern Europe. An equivalent event in North America was the rebound of Hudson Bay, as it shrank from its larger, immediate post-glacial Tyrrell Sea phase, to its present boundaries.

Climate

Vegetation and water bodies in northern and central Africa in the Eemian (bottom) and Holocene (top)

The climate throughout the Holocene has shown significant variability despite ice core records from Greenland suggesting a more stable climate following the preceding ice age. Marine chemical fluxes during the Holocene were lower than during the Younger Dryas, but were still considerable enough to imply notable changes in the climate. The Greenland ice core records indicate that climate changes became more regional and had a larger effect on the mid-to-low latitudes and mid-to-high latitudes after ~5600 B.P. During the transition from the last glacial to the Holocene, the Huelmo–Mascardi Cold Reversal in the Southern Hemisphere began before the Younger Dryas, and the maximum warmth flowed south to north from 11,000 to 7,000 years ago. It appears that this was influenced by the residual glacial ice remaining in the Northern Hemisphere until the later date.

The Holocene climatic optimum (HCO) was a period of warming throughout the globe. It has been suggested that the warming was not uniform across the world. Ice core measurements imply that the sea surface temperature (SST) gradient east of New Zealand, across the subtropical front (STF), was around 2 degrees Celsius. This temperature gradient is significantly less than modern times, which is around 6 degrees Celsius. A study utilizing five SST proxies from 37°S to 60°S latitude confirmed that the strong temperature gradient was confined to the area immediately south of the STF, and is correlated with reduced westerly winds near New Zealand. From the 10th-14th century, the climate was similar to that of modern times during a period known as the Medieval climate optimum, or the Medieval warm period (MWP). It was found that the warming that is taking place in current years is both more frequent and more spatially homogeneous than what was experienced during the MWP. A warming of +1 degree Celsius occurs 5–40 times more frequently in modern years than during the MWP. The major forcing during the MWP was due to greater solar activity, which led to heterogeneity compared to the greenhouse gas forcing of modern years that leads to more homogeneous warming. This was followed by the Little Ice Age, from the 13th or 14th century to the mid-19th century.

The temporal and spatial extent of climate change during the Holocene is an area of considerable uncertainty, with radiative forcing recently proposed to be the origin of cycles identified in the North Atlantic region. Climate cyclicity through the Holocene (Bond events) has been observed in or near marine settings and is strongly controlled by glacial input to the North Atlantic. Periodicities of ≈2500, ≈1500, and ≈1000 years are generally observed in the North Atlantic. At the same time spectral analyses of the continental record, which is remote from oceanic influence, reveal persistent periodicities of 1,000 and 500 years that may correspond to solar activity variations during the Holocene Epoch. A 1,500-year cycle corresponding to the North Atlantic oceanic circulation may have had widespread global distribution in the Late Holocene.

Ecological developments

Animal and plant life have not evolved much during the relatively short Holocene, but there have been major shifts in the richness and abundance of plants and animals. A number of large animals including mammoths and mastodons, saber-toothed cats like Smilodon and Homotherium, and giant sloths went extinct in the late Pleistocene and early Holocene. The extinction of some megafauna in America could be attributed to the Clovis people; this culture was known for "Clovis points" which were fashioned on spears for hunting animals. Shrubs, herbs, and mosses had also changed in relative abundance from the Pleistocene to Holocene, identified by permafrost core samples.

Throughout the world, ecosystems in cooler climates that were previously regional have been isolated in higher altitude ecological "islands".

The 8.2-ka event, an abrupt cold spell recorded as a negative excursion in the δ18O record lasting 400 years, is the most prominent climatic event occurring in the Holocene Epoch, and may have marked a resurgence of ice cover. It has been suggested that this event was caused by the final drainage of Lake Agassiz, which had been confined by the glaciers, disrupting the thermohaline circulation of the Atlantic. This disruption was the result of an ice dam over Hudson Bay collapsing sending cold lake Agassiz water into the North Atlantic ocean. Furthermore, studies show that the melting of Lake Agassiz led to sea-level rise which flooded the North American coastal landscape. The basal peat plant was then used to determine the resulting local sea-level rise of 0.20-0.56m in the Mississippi Delta. Subsequent research, however, suggested that the discharge was probably superimposed upon a longer episode of cooler climate lasting up to 600 years and observed that the extent of the area affected was unclear.

Human developments

Overview map of the world at the end of the 2nd millennium BC, color-coded by cultural stage:
  hunter-gatherers (Palaeolithic or Mesolithic)
  nomadic pastoralists
  simple farming societies
  complex farming societies (Bronze Age (Old World, Olmecs, Andes)
  state societies (Fertile Crescent, Egypt, China)

The beginning of the Holocene corresponds with the beginning of the Mesolithic age in most of Europe. In regions such as the Middle East and Anatolia, the term Epipaleolithic is preferred in place of Mesolithic, as they refer to approximately the same time period. Cultures in this period include Hamburgian, Federmesser, and the Natufian culture, during which the oldest inhabited places still existing on Earth were first settled, such as Tell es-Sultan (Jericho) in the Middle East. There is also evolving archeological evidence of proto-religion at locations such as Göbekli Tepe, as long ago as the 9th millennium BC.

The preceding period of the Late Pleistocene had already brought advancements such as the bow and arrow, creating more efficient forms of hunting and replacing spear throwers. In the Holocene, however, the domestication of plants and animals allowed humans to develop villages and towns in centralized locations. Archaeological data shows that between 10,000 to 7,000 BP rapid domestication of plants and animals took place in tropical and subtropical parts of Asia, Africa, and Central America. The development of farming allowed humans to transition away from hunter-gatherer nomadic cultures, which did not establish permanent settlements, to a more sustainable sedentary lifestyle. This form of lifestyle change allowed humans to develop towns and villages in centralized locations, which gave rise to the world known today. It is believed that the domestication of plants and animals began in the early part of the Holocene in the tropical areas of the planet. Because these areas had warm, moist temperatures, the climate was perfect for effective farming. Culture development and human population change, specifically in South America, has also been linked to spikes in hydroclimate resulting in climate variability in the mid-Holocene (8.2 - 4.2 k cal BP). Climate change on seasonality and available moisture also allowed for favorable agricultural conditions which promoted human development for Maya and Tiwanaku regions.

Extinction event

The Holocene extinction, otherwise referred to as the sixth mass extinction or Anthropocene extinction, is an ongoing extinction event of species during the present Holocene epoch (with the more recent time sometimes called Anthropocene) as a result of human activity. The included extinctions span numerous families of bacteria, fungi, plants and animals, including mammals, birds, reptiles, amphibians, fish and invertebrates. With widespread degradation of highly biodiverse habitats such as coral reefs and rainforests, as well as other areas, the vast majority of these extinctions are thought to be undocumented, as the species are undiscovered at the time of their extinction, or no one has yet discovered their extinction. The current rate of extinction of species is estimated at 100 to 1,000 times higher than natural background extinction rates.

Convention on Biological Diversity

Convention on Biological Diversity
TypeMultilateral environmental agreement
ContextEnvironmentalism, Biodiversity conservation
Drafted22 May 1992
Signed5 June 1992 – 4 June 1993
LocationRio de Janeiro, Brazil
New York, United States
Effective29 December 1993
ConditionRatification by 30 States
Parties

196 States
DepositarySecretary-General of the United Nations
Languages
Full text
United Nations Convention on Biological Diversity at Wikisource

The Convention on Biological Diversity (CBD), known informally as the Biodiversity Convention, is a multilateral treaty. The Convention has three main goals: the conservation of biological diversity (or biodiversity); the sustainable use of its components; and the fair and equitable sharing of benefits arising from genetic resources. Its objective is to develop national strategies for the conservation and sustainable use of biological diversity, and it is often seen as the key document regarding sustainable development.

The Convention was opened for signature at the Earth Summit in Rio de Janeiro on 5 June 1992 and entered into force on 29 December 1993. The United States is the only UN member state which has not ratified the Convention. It has two supplementary agreements, the Cartagena Protocol and Nagoya Protocol.

The Cartagena Protocol on Biosafety to the Convention on Biological Diversity is an international treaty governing the movements of living modified organisms (LMOs) resulting from modern biotechnology from one country to another. It was adopted on 29 January 2000 as a supplementary agreement to the CBD and entered into force on 11 September 2003.

The Nagoya Protocol on Access to Genetic Resources and the Fair and Equitable Sharing of Benefits Arising from their Utilization (ABS) to the Convention on Biological Diversity is another supplementary agreement to the CBD. It provides a transparent legal framework for the effective implementation of one of the three objectives of the CBD: the fair and equitable sharing of benefits arising out of the utilization of genetic resources. The Nagoya Protocol was adopted on 29 October 2010 in Nagoya, Japan, and entered into force on 12 October 2014.

2010 was also the International Year of Biodiversity, and the Secretariat of the CBD was its focal point. Following a recommendation of CBD signatories at Nagoya, the UN declared 2011 to 2020 as the United Nations Decade on Biodiversity in December 2010. The Convention's Strategic Plan for Biodiversity 2011-2020, created in 2010, include the Aichi Biodiversity Targets.

The meetings of the Parties to the Convention are known as Conferences of the Parties (COP), with the first one (COP 1) held in Nassau, Bahamas, in 1994 and the most recent one (COP 15) in 2021/2022 in Kunming, China and Montreal, Canada.

In the area of marine and coastal biodiversity CBD's focus at present is to identify Ecologically or Biologically Significant Marine Areas (EBSAs) in specific ocean locations based on scientific criteria. The aim is to create an international legally binding instrument (ILBI) involving area-based planning and decision-making under UNCLOS to support the conservation and sustainable use of marine biological diversity beyond areas of national jurisdiction (BBNJ).

Origin and scope

The notion of an international convention on biodiversity was conceived at a United Nations Environment Programme (UNEP) Ad Hoc Working Group of Experts on Biological Diversity in November 1988. The subsequent year, the Ad Hoc Working Group of Technical and Legal Experts was established for the drafting of a legal text which addressed the conservation and sustainable use of biological diversity, as well as the sharing of benefits arising from their utilization with sovereign states and local communities. In 1991, an intergovernmental negotiating committee was established, tasked with finalizing the Convention's text.

A Conference for the Adoption of the Agreed Text of the Convention on Biological Diversity was held in Nairobi, Kenya, in 1992, and its conclusions were distilled in the Nairobi Final Act. The Convention's text was opened for signature on 5 June 1992 at the United Nations Conference on Environment and Development (the Rio "Earth Summit"). By its closing date, 4 June 1993, the Convention had received 168 signatures. It entered into force on 29 December 1993.

The Convention recognized for the first time in international law that the conservation of biodiversity is "a common concern of humankind" and is an integral part of the development process. The agreement covers all ecosystems, species, and genetic resources. It links traditional conservation efforts to the economic goal of using biological resources sustainably. It sets principles for the fair and equitable sharing of the benefits arising from the use of genetic resources, notably those destined for commercial use. It also covers the rapidly expanding field of biotechnology through its Cartagena Protocol on Biosafety, addressing technology development and transfer, benefit-sharing and biosafety issues. Importantly, the Convention is legally binding; countries that join it ('Parties') are obliged to implement its provisions.

The Convention reminds decision-makers that natural resources are not infinite and sets out a philosophy of sustainable use. While past conservation efforts were aimed at protecting particular species and habitats, the Convention recognizes that ecosystems, species and genes must be used for the benefit of humans. However, this should be done in a way and at a rate that does not lead to the long-term decline of biological diversity.

The Convention also offers decision-makers guidance based on the precautionary principle which demands that where there is a threat of significant reduction or loss of biological diversity, lack of full scientific certainty should not be used as a reason for postponing measures to avoid or minimize such a threat. The Convention acknowledges that substantial investments are required to conserve biological diversity. It argues, however, that conservation will bring us significant environmental, economic and social benefits in return.

The Convention on Biological Diversity of 2010 banned some forms of geoengineering.

Executive secretary

As of 1 December 2019, the acting executive secretary is Elizabeth Maruma Mrema.

The previous executive secretaries were: pl:Cristiana Pașca Palmer (2017–2019), Braulio Ferreira de Souza Dias (2012–2017), Ahmed Djoghlaf (2006–2012), Hamdallah Zedan (1998–2005), Calestous Juma (1995–1998), and Angela Cropper (1993–1995).

Issues

Some of the many issues dealt with under the Convention include:

  • Measures the incentives for the conservation and sustainable use of biological diversity.
  • Regulated access to genetic resources and traditional knowledge, including Prior Informed Consent of the party providing resources.
  • Sharing, in a fair and equitable way, the results of research and development and the benefits arising from the commercial and other utilization of genetic resources with the Contracting Party providing such resources (governments and/or local communities that provided the traditional knowledge or biodiversity resources utilized).
  • Access to and transfer of technology, including biotechnology, to the governments and/or local communities that provided traditional knowledge and/or biodiversity resources.
  • Technical and scientific cooperation.
  • Coordination of a global directory of taxonomic expertise (Global Taxonomy Initiative).
  • Impact assessment.
  • Education and public awareness.
  • Provision of financial resources.
  • National reporting on efforts to implement treaty commitments.

International bodies established

Conference of the Parties (COP)

The Convention's governing body is the Conference of the Parties (COP), consisting of all governments (and regional economic integration organizations) that have ratified the treaty. This ultimate authority reviews progress under the Convention, identifies new priorities, and sets work plans for members. The COP can also make amendments to the Convention, create expert advisory bodies, review progress reports by member nations, and collaborate with other international organizations and agreements.

The Conference of the Parties uses expertise and support from several other bodies that are established by the Convention. In addition to committees or mechanisms established on an ad hoc basis, the main organs are:

CBD Secretariat

The CBD Secretariat, based in Montreal, Quebec, Canada, operates under UNEP, the United Nations Environment Programme. Its main functions are to organize meetings, draft documents, assist member governments in the implementation of the programme of work, coordinate with other international organizations, and collect and disseminate information.

Subsidiary Body for Scientific, Technical and Technological Advice (SBSTTA)

The SBSTTA is a committee composed of experts from member governments competent in relevant fields. It plays a key role in making recommendations to the COP on scientific and technical issues. It provides assessments of the status of biological diversity and of various measures taken in accordance with Convention, and also gives recommendations to the Conference of the Parties, which may be endorsed in whole, in part or in modified form by the COPs. As of 2020 SBSTTA had met 23 times, with a 24th meeting taking place in Geneva, Switzerland in 2022.

Subsidiary Body on Implementation (SBI)

In 2014, the Conference of the Parties to the Convention on Biological Diversity established the Subsidiary Body on Implementation (SBI) to replace the Ad Hoc Open-ended Working Group on Review of Implementation of the Convention. The four functions and core areas of work of SBI are: (a) review of progress in implementation; (b) strategic actions to enhance implementation; (c) strengthening means of implementation; and (d) operations of the Convention and the Protocols. The first meeting of the SBI was held on 2–6 May 2016 and the second meeting was held on 9–13 July 2018, both in Montreal, Canada. The third meeting of the SBI will be held in March 2022 in Geneva, Switzerland. The Bureau of the Conference of the Parties serves as the Bureau of the SBI. The current chair of the SBI is Ms. Charlotta Sörqvist of Sweden.

Parties

  Parties to the convention
  Signed, but not ratified
  Non-signatory

As of 2016, the Convention has 196 Parties, which includes 195 states and the European Union. All UN member states—with the exception of the United States—have ratified the treaty. Non-UN member states that have ratified are the Cook Islands, Niue, and the State of Palestine. The Holy See and the states with limited recognition are non-Parties. The US has signed but not ratified the treaty, because ratification requires a two-thirds majority in the Senate and is blocked by Republican Party senators.

The European Union created the Cartagena Protocol (see below) in 2000 to enhance biosafety regulation and propagate the "precautionary principle" over the "sound science principle" defended by the United States. Whereas the impact of the Cartagena Protocol on domestic regulations has been substantial, its impact on international trade law remains uncertain. In 2006, the World Trade Organization (WTO) ruled that the European Union had violated international trade law between 1999 and 2003 by imposing a moratorium on the approval of genetically modified organisms (GMO) imports. Disappointing the United States, the panel nevertheless "decided not to decide" by not invalidating the stringent European biosafety regulations.

Implementation by the Parties to the Convention is achieved using two means:

National Biodiversity Strategies and Action Plans (NBSAP)

National Biodiversity Strategies and Action Plans (NBSAP) are the principal instruments for implementing the Convention at the national level. The Convention requires that countries prepare a national biodiversity strategy and to ensure that this strategy is included in planning for activities in all sectors where diversity may be impacted. As of early 2012, 173 Parties had developed NBSAPs.

The United Kingdom, New Zealand and Tanzania carried out elaborate responses to conserve individual species and specific habitats. The United States of America, a signatory who had not yet ratified the treaty by 2010, produced one of the most thorough implementation programs through species recovery programs and other mechanisms long in place in the US for species conservation.

Singapore established a detailed National Biodiversity Strategy and Action Plan. The National Biodiversity Centre of Singapore represents Singapore in the Convention for Biological Diversity.

National Reports

In accordance with Article 26 of the Convention, Parties prepare national reports on the status of implementation of the Convention.

Protocols and plans developed by CBD

Cartagena Protocol (2000)

The Cartagena Protocol on Biosafety, also known as the Biosafety Protocol, was adopted in January 2000, after a CBD Open-ended Ad Hoc Working Group on Biosafety had met six times between July 1996 and February 1999. The Working Group submitted a draft text of the Protocol for consideration by Conference of the Parties at its first extraordinary meeting, which was convened for the express purpose of adopting a protocol on biosafety to the Convention on Biological Diversity. After a few delays, the Cartagena Protocol was eventually adopted on 29 January 2000. The Biosafety Protocol seeks to protect biological diversity from the potential risks posed by living modified organisms resulting from modern biotechnology.

The Biosafety Protocol makes clear that products from new technologies must be based on the precautionary principle and allow developing nations to balance public health against economic benefits. It will, for example, let countries ban imports of a genetically modified organism if they feel there is not enough scientific evidence the product is safe and requires exporters to label shipments containing genetically modified commodities such as corn or cotton.

The required number of 50 instruments of ratification/accession/approval/acceptance by countries was reached in May 2003. In accordance with the provisions of its Article 37, the Protocol entered into force on 11 September 2003.

Global Strategy for Plant Conservation (2002)

In April 2002, the Parties of the UN CBD adopted the recommendations of the Gran Canaria Declaration Calling for a Global Plant Conservation Strategy, and adopted a 16-point plan aiming to slow the rate of plant extinctions around the world by 2010.

Nagoya Protocol (2010)

The Nagoya Protocol on Access to Genetic Resources and the Fair and Equitable Sharing of Benefits Arising from their Utilization to the Convention on Biological Diversity was adopted on 29 October 2010 in Nagoya, Aichi Prefecture, Japan, at the tenth meeting of the Conference of the Parties, and entered into force on 12 October 2014. The protocol is a supplementary agreement to the Convention on Biological Diversity, and provides a transparent legal framework for the effective implementation of one of the three objectives of the CBD: the fair and equitable sharing of benefits arising out of the utilization of genetic resources. It thereby contributes to the conservation and sustainable use of biodiversity.

Strategic Plan for Biodiversity 2011-2020

Also at the tenth meeting of the Conference of the Parties, held from 18 to 29 October 2010 in Nagoya, a revised and updated "Strategic Plan for Biodiversity, 2011-2020" was agreed and published. This document included the "Aichi Biodiversity Targets", comprising 20 targets that address each of five strategic goals defined in the plan. The strategic plan includes the following strategic goals:

  • Strategic Goal A: Address the underlying causes of biodiversity loss by mainstreaming biodiversity across government and society
  • Strategic Goal B: Reduce the direct pressures on biodiversity and promote sustainable use
  • Strategic Goal C: To improve the status of biodiversity by safeguarding ecosystems, species and genetic diversity
  • Strategic Goal D: Enhance the benefits to all from biodiversity and ecosystem services
  • Strategic Goal E: Enhance implementation through participatory planning, knowledge management and capacity building

Upon the launch of Agenda 2030, CBD released a technical note mapping and identifying synergies between the 17 Sustainable Development Goals (SDGs) and the 20 Aichi Biodiversity Targets. This helps to understand the contributions of biodiversity to achieving the SDGs.

post-2020 Global Biodiversity Framework

A new plan, known as the post-2020 Global Biodiversity Framework (GBF) was developed to guide action through 2030. A first draft of this framework was released in July 2021, and its final content was discussed and negotiated as part of the COP 15 meetings. Reducing agricultural pollution and sharing the benefits of digital sequence information arose as key points of contention among Parties during development of the framework. A final version was adopted by the Convention on 19 December 2022. The framework includes a number of ambitious goals, including a commitment to designate at least 30 percent of global land and sea as protected areas (known as the "30 by 30" initiative).

Marine and coastal biodiversity

The CBD has a significant focus on marine and coastal biodiversity. A series of expert workshops have been held (2018–2022) to identify options for modifying the description of Ecologically or Biologically Significant Marine Areas (EBSAs) and describing new areas. These have focused on the North-East, North-West and South-Eastern Atlantic Ocean, Baltic Sea, Caspian Sea, Black Sea, Seas of East Asia, North-West Indian Ocean and Adjacent Gulf Areas, Southern and North-East Indian Ocean, Mediterranean Sea, North and South Pacific, Eastern Tropical and Temperate Pacific, Wider Caribbean and Western Mid-Atlantic. The workshop meetings have followed the EBSA process based on internationally agreed scientific criteria. This is aimed at creating an international legally binding instrument (ILBI) under UNCLOS to support the conservation and sustainable use of marine biological diversity beyond areas of national jurisdiction (BBNJ). The central mechanism is area-based planning and decision-making. It integrates EBSAs, Vulnerable Marine Ecosystems (VMEs) and High Seas (Marine Protected Areas) with Blue Growth scenarios. There is also linkage with the EU Marine Strategy Framework Directive.

Criticism

There have been criticisms against CBD that its implementation has been weakened due to resistance of Western countries to the implementation of pro-South provisions of the Convention. CBD is also regarded as a case of a hard treaty gone soft in the implementation trajectory. The argument to enforce the treaty as a legally binding multilateral instrument with the Conference of Parties reviewing the infractions and non-compliance is also gaining strength.

Although the Convention explicitly states that all forms of life are covered by its provisions, examination of reports and of national biodiversity strategies and action plans submitted by participating countries shows that in practice this is not happening. The fifth report of the European Union, for example, makes frequent reference to animals (particularly fish) and plants, but does not mention bacteria, fungi or protists at all. The International Society for Fungal Conservation has assessed more than 100 of these CBD documents for their coverage of fungi using defined criteria to place each in one of six categories. No documents were assessed as good or adequate, less than 10% as nearly adequate or poor, and the rest as deficient, seriously deficient or totally deficient.

Scientists working with biodiversity and medical research are expressing fears that the Nagoya Protocol is counterproductive, and will hamper disease prevention and conservation efforts, and that the threat of imprisonment of scientists will have a chilling effect on research. Non-commercial researchers and institutions such as natural history museums fear maintaining biological reference collections and exchanging material between institutions will become difficult, and medical researchers have expressed alarm at plans to expand the protocol to make it illegal to publicly share genetic information, e.g. via GenBank.

William Yancey Brown, when with the Brookings Institution, suggested that the Convention on Biological Diversity should include the preservation of intact genomes and viable cells for every known species and for new species as they are discovered.

Meetings of the Parties

A Conference of the Parties (COP) was held annually for three years after 1994, and thence biennially on even-numbered years.

1994 COP 1

The first ordinary meeting of the Parties to the Convention took place in November and December 1994, in Nassau, Bahamas.

1995 COP 2

The second ordinary meeting of the Parties to the Convention took place in November 1995, in Jakarta, Indonesia.

1996 COP 3

The third ordinary meeting of the Parties to the Convention took place in November 1996, in Buenos Aires, Argentina.

1998 COP 4

The fourth ordinary meeting of the Parties to the Convention took place in May 1998, in Bratislava, Slovakia.

1999 EX-COP 1 (Cartagena)

The First Extraordinary Meeting of the Conference of the Parties took place in February 1999, in Cartagena, Colombia. A series of meetings led to the adoption of the Cartagena Protocol on Biosafety in January 2000, effective from 2003.

2000 COP 5

The fifth ordinary meeting of the Parties to the Convention took place in May 2000, in Nairobi, Kenya.

2002 COP 6

The sixth ordinary meeting of the Parties to the Convention took place in April 2002, in The Hague, Netherlands.

2004 COP 7

The seventh ordinary meeting of the Parties to the Convention took place in February 2004, in Kuala Lumpur, Malaysia.

2006 COP 8

The eighth ordinary meeting of the Parties to the Convention took place in March 2006, in Curitiba, Brazil.

2008 COP 9

The ninth ordinary meeting of the Parties to the Convention took place in May 2008, in Bonn, Germany.

2010 COP 10 (Nagoya)

The tenth ordinary meeting of the Parties to the Convention took place in October 2010, in Nagoya, Japan. It was at this meeting that the Nagoya Protocol was ratified.

2010 was the International Year of Biodiversity and the Secretariat of the CBD was its focal point. Following a recommendation of CBD signatories during COP 10 at Nagoya, the UN, on 22 December 2010, declared 2011 to 2020 as the United Nations Decade on Biodiversity.

2012 COP 11

Leading up to the Conference of the Parties (COP 11) meeting on biodiversity in Hyderabad, India, 2012, preparations for a World Wide Views on Biodiversity has begun, involving old and new partners and building on the experiences from the World Wide Views on Global Warming.

2014 COP 12

Under the theme, "Biodiversity for Sustainable Development", thousands of representatives of governments, NGOs, indigenous peoples, scientists and the private sector gathered in Pyeongchang, Republic of Korea in October 2014 for the 12th meeting of the Conference of the Parties to the Convention on Biological Diversity (COP 12).

From 6–17 October 2014, Parties discussed the implementation of the Strategic Plan for Biodiversity 2011-2020 and its Aichi Biodiversity Targets, which are to be achieved by the end of this decade. The results of Global Biodiversity Outlook 4, the flagship assessment report of the CBD informed the discussions.

The conference gave a mid-term evaluation to the UN Decade on Biodiversity (2011–2020) initiative, which aims to promote the conservation and sustainable use of nature. The meeting achieved a total of 35 decisions, including a decision on "Mainstreaming gender considerations", to incorporate gender perspective to the analysis of biodiversity.

At the end of the meeting, the meeting adopted the "Pyeongchang Road Map", which addresses ways to achieve biodiversity through technology cooperation, funding and strengthening the capacity of developing countries.

2016 COP 13

COP13 Mexico meeting

The thirteenth ordinary meeting of the Parties to the Convention took place between 2 and 17 December 2016 in Cancún, Mexico.

2018 COP 14

The 14th ordinary meeting of the Parties to the Convention took place on 17–29 November 2018, in Sharm El-Sheikh, Egypt. The 2018 UN Biodiversity Conference closed on 29 November 2018 with broad international agreement on reversing the global destruction of nature and biodiversity loss threatening all forms of life on Earth. Parties adopted the Voluntary Guidelines for the design and effective implementation of ecosystem-based approaches to climate change adaptation and disaster risk reduction. Governments also agreed to accelerate action to achieve the Aichi Biodiversity Targets, agreed in 2010, until 2020. Work to achieve these targets would take place at the global, regional, national and subnational levels.

2021/2022 COP 15

COP15 Canada meeting

The 15th meeting of the Parties was originally scheduled to take place in Kunming, China in 2020, but was postponed several times due to the COVID-19 pandemic. After the start date was delayed for a third time, the Convention was split into two sessions. A mostly online event took place in October 2021, where over 100 nations signed the Kunming declaration on biodiversity. The theme of the declaration was "Ecological Civilization: Building a Shared Future for All Life on Earth". Twenty-one action-oriented draft targets were provisionally agreed in the October meeting, to be further discussed in the second session: an in-person event that was originally scheduled to start in April 2022, but was rescheduled to occur later in 2022. The second part of COP 15 ultimately took place in Montreal, Canada, from 5–17 December 2022. At the meeting, the Parties to the Convention adopted a new action plan, the Kunming-Montreal Global Biodiversity Framework.

2024 COP 16

The 16th meeting of the Parties is scheduled to be held in Turkey in 2024.

Algorithmic information theory

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