Biodiversity offsetting

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Bringing forward farmland sites to receive biodiversity offset credits will create the investment needed to improve biodiversity across large areas. High nature value farmland in England.jpg
Bringing forward farmland sites to receive biodiversity offset credits will create the investment needed to improve biodiversity across large areas.

Biodiversity offsetting is a system used predominantly by planning authorities and developers to fully compensate for biodiversity impacts associated with economic development, through the planning process. In some circumstances, biodiversity offsets are designed to result in an overall biodiversity gain. Offsetting is generally considered the final stage in a mitigation hierarchy, whereby predicted biodiversity impacts must first be avoided, minimised and reversed by developers, before any remaining impacts are offset. The mitigation hierarchy serves to meet the environmental policy principle of "No Net Loss" of biodiversity alongside development. [1] [2]

Contents

Individuals or companies involved in arranging biodiversity offsets will use quantitative measures to determine the amount, type and quality of habitat that is likely to be affected by a proposed project. Then, they will establish a new location or locations (often called receptor sites) where it would be possible to re-create the same amount, type and quality of habitat. The aim of biodiversity offsets is not simply to provide financial compensation for the biodiversity losses associated with development, although developers might pay financial compensation in some cases if it can be demonstrated exactly what the physical biodiversity gains achieved by that compensation will be. The type of environmental compensation provided by biodiversity offsetting is different from biodiversity banking in that it must show both measurable and long-term biodiversity improvements, that can be demonstrated to counteract losses. However, there is so far mixed evidence that biodiversity offsets successfully counteract the biodiversity losses caused by associated developments, with evidence that offsets are generally more successful in less structurally-complex and more rapidly-recovering habitats such as loss of biodiversity simplified wetland habitats. [3] For biodiversity offsets to successfully compensate for the loss of biodiversity elsewhere, it is necessary that they demonstrate additionality (i.e. the deliver an improvement in biodiversity that would not otherwise have occurred). While there are individual case studies of offsets that have successfully delivered additional outcomes, [4] other evaluations of large-scale biodiversity offsetting markets have demonstrated serious additionality shortcomings. [5]

Terminology

Biodiversity offsets are defined by the Business and Biodiversity Offsets Programme as "measurable conservation outcomes of actions designed to compensate for significant residual adverse biodiversity impacts arising from project development after appropriate prevention and mitigation measures have been taken." [6]

The definition also states that the goal of biodiversity offsets is to achieve no net loss of biodiversity, or ideally, a net gain. [6] No net loss (NNL) is an environmental policy approach, defined as a goal for development projects/activities and policies where impacts on biodiversity are either counterbalanced or outweighed by measures to ensure that biodiversity is at the same level as it was before the project. [7]

Biodiversity offsetting may be confused with related terms like biodiversity banking. Biodiversity banking refers to a market-based mechanism, whereby offsets become assets in the form of biodiversity credits that can be traded to offset the debit of negative impacts of development. [8] [9] Biodiversity banks refer to sites where conservation or restoration activities have been carried out for the benefit of biodiversity. [10] The positive outcomes for biodiversity or a given area of the bank is quantified in the form of a biodiversity credit. [8]  

In some languages, such as Spanish or Mandarin Chinese, biodiversity offsets are described as "compensation" because there is no corresponding term for offsetting. [11] The term compensation is generally used more broadly in English to describe measures to counterbalance damages to biodiversity caused by development projects. Compensation does not necessarily require the aim of a no net loss goal, equivalence in biodiversity loss and gain, or measurable outcomes for conservation. [6] [12] Biodiversity offsets may therefore be seen as a more specific and outcome-oriented type of compensation measure. [11]

The term "mitigation" is also sometimes used synonymously with offsetting, such as in the United States, where biodiversity offsetting is described by "compensatory mitigation". However, "mitigation" can be used to refer to the sequence of actions described by the mitigation hierarchy, a framework commonly used to guide the application of biodiversity offsetting within planning processes like Environmental Impact Assessments. [6] The mitigation hierarchy describes a series of measures that should be applied in sequence to reduce impacts on biodiversity to the point where no adverse effects remain, often including the steps avoid, reduce, restore/rehabilitate, and offset. [13] Offsetting is often regarded as the "final resort" in the mitigation hierarchy. [14]

Relevant conservation activities

Biodiversity offset projects can involve various management activities that can be demonstrated to deliver gains in biodiversity. These activities very often include active habitat restoration or creation projects (e.g. new wetland creation, grassland restoration). However, also viable are so-called "averted loss" biodiversity offsets, in which measures are taken to prevent ecological degradation from occurring where it almost certainly would have happened otherwise. Averted loss offsets might involve the creation of new protected areas (to conserve fauna species that would otherwise have disappeared), the removal of invasive species from areas of habitat (which otherwise would have reduced or displaced populations of native species), or positive measures to reduce extensive natural resource use (e.g. the offer of alternative livelihood creation to prevent activities leading to deforestation).

Any activities that do not result in a positive and measurable gain for biodiversity would not generally be counted as part of a biodiversity offset. For instance, if a developer funds ecological conservation research in a region that they are impacting through a project, would not count as an offset (unless it could be shown quantitatively how specific fauna and flora would benefit). instead, this would be a more general form of compensation. Note that biodiversity offsets can be considered a very specific, robust and transparent category of ecological compensation.

Receptor sites

Under many offset systems, receptor sites are areas of land put forward by companies or individuals looking to receive payment in return for creating (or restoring) biodiversity habitats on their property. The biodiversity restoration projects are financed by compensation from developers looking to offset their biodiversity impact. The resulting change in biodiversity levels at the new receptor sites should be equal to, or greater than, the losses at the original ‘impact site’; in order to achieve no net loss – and preferably gain – of overall biodiversity. Such systems often rely on the buying (by developers) and selling (by landowners) of conservation credits.

However, characteristics of receptor sites can vary across different jurisdictions. In some countries, for instance, land is primarily state-owned, and so it is the government that owns and manages biodiversity offset projects. For biodiversity offsets in marine environments, receptor sites might be subject to multiple management organisations and not necessarily owned by anyone. Controversially, some biodiversity offsets use existing protected areas as receptor sites (i.e. improving the effectiveness of areas that are already managed for biodiversity conservation).

Requirement to offset biodiversity

Biodiversity offset projects can be found on every major continent besides Antarctica. [15] As of 2019, over 100 countries had, or were developing, policies for biodiversity offsetting [16] and more than 37 countries required biodiversity offsets by law. [16] These policies generally implement biodiversity offsetting within planning systems to compensate for unavoidable residual damage to biodiversity as the final step of a mitigation hierarchy, a tool to manage biodiversity risk. [1] Where damage to biodiversity cannot be avoided or reduced, biodiversity offsetting may then be used as a conservation tool with the idea that development projects will result in either "no net loss", "net gain", or "net positive impact" of/on biodiversity. [17]

The terms used to describe biodiversity offsetting and the method of implementation differ regionally. The term 'biodiversity offsetting' is generally used across Australia, New Zealand, South Africa, and the United Kingdom. [11] However, different terms are used elsewhere: [11]

Term(s) for biodiversity offsetting (English translation)Country/countries
Biodiversity compensationArgentina, Chile, Colombia, Kazakhstan, Mexico, Peru, Spain, Uzbekistan, Venezuela
Biodiversity offsettingAustralia, New Zealand, South Africa, UK
CompensationDenmark, Sweden
Compensation measuresCanada, France, Germany, Madagascar
Compensatory mitigationUnited States
Conservation offsetCanada
Ecological compensationChina
Environmental reserve certificationBrazil
Substitution, ecological/environmental compensationSweden

Biodiversity offsetting may also be required by lending institutions that co-finance developments. For example, any project financed by the International Finance Corporation (IFC) must deliver "no net loss" or "net gain" of biodiversity, [18] required under the IFC's Performance Standard 6 (PS6). PS6 is regarded as influential and an example of best practice. [19] However, as of 2019, only 8 offset projects had been implemented directly because of this requirement. [16]

Finally, offset projects may arise from voluntary commitments made by corporations or across a sector. [20] Only a small proportion of offsets arise in this way, but the projects generated tend to be larger than those arising from public policy requirements. [16] For example, the Ambatovy mine in Madagascar uses voluntary [21] avoided loss offsets to mitigate impacts on biodiversity by compensating for forest clearance at the mine. The project is on track to achieve no net loss, but the permanence of conservation outcomes achieved using its biodiversity offsets is not yet known. [21] [22]

Biodiversity compensation in Colombia

In Colombia, the equivalent term for biodiversity offsetting translates literally to biodiversity compensation (Spanish: compensaciones de biodiversidad). [11] Principles to govern application of offsets have been established and, since 2012, the country has had a 'Biodiversity Offsetting Manual' (Spanish: Manual para la asignación de compensaciones por pérdida de biodiversidad) under Resolution 1517, with an updated manual released in 2018 under Resolution 256. [23] [24] Required principles to guide offset design include a no net loss objective, equivalence between the offset and impacted ecosystem, additionality, and a minimum duration of the length of the development project. [25]

Several different regulations are in place to govern biodiversity offsets, including in relation to the environmental licensing system, forest reserve areas, harvesting of forests, and the exploitation of endangered species. [26]

Biodiversity compensation in Peru

In Peru, the equivalent term for biodiversity offsetting literally translates to "biodiversity compensation" (Spanish: compensaciones de biodiversidad). [11] The country has explicit legal frameworks requiring biodiversity offsetting for some projects subject to Environmental Impact Assessments (EIAs), under laws that govern environmental licensing. The term environmental licensing (Spanish: certifcación ambiental) is used to describe measures to evaluate or mitigate potential environmental impacts of developments.

The official guidelines on offsetting published by the SEIA (National Environmental Impact Assessment System,Spanish: Sistema Nacional de Evaluación de Impacto Ambiental) in 2015 [27] require an objective of "no net loss" of biodiversity and ecosystem functionality, also requiring offsets to be based on principles of additionality, ecological equivalence, and compliance with the mitigation hierarchy. [28] Offsets must last for the duration of the environmental impacts and must be in place when an environmental licence is approved. [28]

Ecological compensation in China

In China, biodiversity offsetting is referred to using the term ecological compensation (simplified Chinese: 生态补偿机制; traditional Chinese: 生態補償機制; pinyin: shēngtài bǔcháng jīzhì), or eco-compensation. [11] The system for biodiversity offsetting in China requires that developers complete an environmental impact assessment to determine the impact of their project, then choose either to offset the impacts themselves or pay the government to do it on their behalf. [29] A goal similar to "no net loss", referred to as "maintain biodiversity" (simplified Chinese: 维护生物多样性 ; traditional Chinese: 維護生物多樣性; pinyin: wéihù shēngwù duōyàng xìng) is used in eco-compensation. However, offsets do not have to adhere to a "like for like" principle, where the offset is ecologically equivalent to the development site. [30]

The term 'ecological compensation' takes on multiple meanings in Chinese environmental policy, including compensation for ongoing development impacts (equivalent to biodiversity offsetting policies in other countries), compensation for previous development impacts, payments for ecosystem services, and compensation for illegal use of natural resources. [29] In the context of biodiversity offsetting, compensation involves mitigation of negative impacts on biodiversity arising from development projects by enhancing biodiversity elsewhere, typically aiming for "no net loss" or "net positive" biodiversity outcomes. [31]

With the aim of reversing the habitat destruction caused by rapid expansion of infrastructure, the Chinese Government first launched its eco-compensation scheme between the late 1990s and early 2000s. [32] Some of the biodiversity offsetting mechanisms used in China include the forestry vegetation restoration fee (FVRF), grassland vegetation restoration fee (GVRF, simplified Chinese: 草原植被恢复费), and wetland restoration fee (WRF).

The forestry vegetation restoration fee (FVRF) (simplified Chinese: 森林植被恢复费) was the earliest ecological compensation mechanism developed in China [30] and widely regarded as China's principal "no net loss" (NNL) instrument because it incorporates a legal commitment to no net loss of forest cover. [30] This means that developments (such as mining operations) occupying forest land with approval from the National Forestry and Grassland Administration should pay fees to restore this vegetation. [33] FVRFs were launched in 1998 as part of China's first Forestry Law, which established "a compensation fund for the benefit of the forest ecology". [34] They are also the most widely used compensation mechanism in China. This is because of a policy focus on prioritising forest protection and afforestation to promote sustainability. By contrast, WRF is in its infancy and GVRF has only been applied to a some regions. [30]

Eco-compensation in China is criticised for the substantial degree of government participation through use of public funds as finance sources. [32] On the other hand, government participation is also regarded as important in developing countries to ensure that biodiversity offset projects operate smoothly. [32] In addition, there is no standardised measurement for compensation programmes and quantitative metrics to determine impact on biodiversity are not mandated. [29]

Compensatory mitigation in the US

No Net Loss policy (and consequently, biodiversity offsetting) has its origin in US legislation, specifically in the Water Act from the 1970s. This piece of legislation required 'no net loss of wetland acreage and function', leading eventually to the creation of mitigation banks, where wetland credits are bought and sold. [35]

The US also has a Conservation Banking policy in which credits representing areas of habitat for protected fauna species are traded. [36]

In the US, offsetting tends to be called 'compensatory mitigation'.

Offsetting in Australia

In Australia, biodiversity offsetting has been applied since at least 2001, under the conditions of the Environment Protection and Biodiversity Conservation Act 1999 (EPBC Act). [37] At federal and state/territory levels, policies have been established to regulate biodiversity offsetting; potential biodiversity offsets may need approval both under the EPBC Act and under the policies of the state/territory where the development is occurring. [38] As well, much of the scientific research into biodiversity offsetting outside of the US has been conducted by Australia, especially organisations such as CEED and CSIRO.

The Environment Protection and Biodiversity Conservation Act 1999 (EPBC Act) regulates biodiversity offsetting at the federal level and forms the basis of the government's 'Environmental Offsets Policy'. Under the EPBC Act, if a proposed development (such as housing developments, mining projects, or road construction) is likely to have an impact on a protected area, an Environmental Impact Assessment must be conducted. Offsetting can be carried out, as part of a mitigation hierarchy, to compensate for adverse impacts that cannot be avoided or minimised.

The involvement of the federal government is limited to matters of national environmental significance, known as 'protected matters' under the EPBC Act. [39] For example, potential adverse impacts on biodiversity where world heritage properties, wetlands of international importance under the Ramsar convention, and listed threatened species are concerned. [38] Offsets are applied to nearly 80% of approved actions in Australia under the legal conditions of the EPBC Act, according to a report by the Australian National Audit Office in 2020. [40]

State and territory offsetting requirements

State and territory governments within Australia have established their own biodiversity offsetting policies, including in the Federal Capital Territory, New South Wales, Queensland, Victoria, Western Australia, and the Northern Territory - in Tasmania, biodiversity offsetting policy is only applied in specific contexts.       

Biodiversity banking mechanisms are also operated on a regional level within Australia. Biodiversity banking involves the generation of biodiversity credits (as proxies for biodiversity) [1] from assessing the biodiversity value of land where conservation activities to restore or manage habitats have been conducted. These sites, located away from the development site, are known as 'biobanks'. The biodiversity credits generated from biobanks can then be traded within a market framework to deliver biodiversity offsets that aim to mitigate the negative impacts of development projects.

Offsetting in South Africa

South Africa has a legal framework to govern the implementation of biodiversity offsetting through the National Environmental Management Act (NEMA) and the Environmental Impact Assessment Regulations (EIAR), though the term is not explicitly mentioned in these laws.

NEMA puts forward a polluter pays principle, which could be implemented using biodiversity offsetting, and requires developers to consider the need to avoid, or to minimise and remedy (where avoidance is not possible), the loss of biodiversity, as part of sustainable development. [41] The EIAR includes implicit legal provisions for the use of offsets. [42] These laws form the foundation of the 'National Biodiversity Offset Guideline', issued by the Ministry of Forestry, Fisheries & the Environment in January 2023. [43] According to these guidelines, biodiversity offsets are required when it is likely that a proposed activity could have residual negative impacts on biodiversity of "medium or high significance" (where biodiversity may be lost in vulnerable areas, or areas of recognised importance), once measures have been taken to avoid or minimise these impacts.

The implementation of a national guideline on biodiversity offsetting was recommended by the National Biodiversity Framework (2019-2024). [44] In response to the recommendation, the 'National Biodiversity Offset Guideline' was released by the Ministry of Forestry, Fisheries & the Environment [43] to guide the implementation of EIAR and NEMA. It provides guidance on the principles of biodiversity offsets, the requirements for biodiversity offsets, biodiversity offsets in the context of Environmental Impact Assessments, selection of sites, and planning. [45] The principles of the guideline acknowledge offsetting as the last step of the mitigation hierarchy, a preference for ecological equivalence of offsets, and the need for offsets to be additional to conservation measures that are already legally required. It does not mention "no net loss" or "net positive impact" as goals for biodiversity, instead discussing the need to "counterbalance a residual impact". [43]

Provincial offsetting guidelines

In addition to national guidelines, some South African provinces have their own offsetting guidelines. The first to develop a biodiversity offsetting framework was the Western Cape Province with the Provincial Biodiversity Offsetting Guideline. [46] The KwaZulu-Natal and Gauteng provinces have also published guidelines for biodiversity offsetting and other provinces are drafting their own policies. [46]

Guidelines in the Western Cape Province require developers to compensate for residual impacts on biodiversity and ecosystem services, as part of the environmental impact assessment process. However, if a project proposal is deemed to be fatally flawed (it has a major defect that should result in its rejection) through its impact on biodiversity, this means that offsets cannot be applied. Like national guidelines, the Western Cape's guidelines do not use the goal of "no net loss" to guide ambitions for offsets because it is considered to be unrealistic as a result of South Africa's status as a developing country. [47] Instead, the guideline attaches offset requirements to an acceptable loss of threatened vegetation types and ecosystem services.

The use of biodiversity offsetting in South Africa has attracted debate. [46] A range of barriers to effective implementation have been identified by researchers. For example, the lack of common understanding of the theory and practical application of biodiversity offsetting within the country is a particular challenge. [46]

Offsetting in Uganda

Legal provisions for biodiversity offsets have been introduced in Uganda under the National Environment Act (NEA) 2019 with the goal of achieving no net loss, and aspiring to net gain. [48] In addition, Uganda has published a 'National Biodiversity and Social Offset Strategy' and a 'National Biodiversity Strategy and Action Plan' for 2015-2025 which mentions biodiversity offsets. [49] [50]

The NEA puts forward principles of environmental management that include a requirement to apply the mitigation hierarchy in environmental and social impact assessments (ESIA). [51] The Act requires biodiversity offsets to be designed to address residual impacts, achieve measurable conservation outcomes, and adhere to the "like-for-like or better" principle. [52] According to the "like-for-like or better principle" offsets must provide outcomes for biodiversity that are either equivalent to or better the biodiversity lost. [53] Developers are also required to monitor projects to ensure that mitigation measures are effective and that offsets achieve NNL, as part of the Act. [52]

Prior to government policy requirements, biodiversity offset projects had been implemented in Uganda as part of lending requirements from the World Bank. [54] [55] For example, creation of an offset between Kalagala Falls and Itanda Falls on the River Nile to mitigate the negative impacts of the Bujagali Hydroelectric Power Station, agreed between the government of Uganda and the World Bank as a condition for financing a dam at Bujagali Falls in 2007. [56] Bujagali Falls was flooded as a result of the project. This was criticised for its impacts on biodiversity, the tourism industry that relied on recreational activities there, and because Bujagali Falls had spiritual importance for local people. [57] The government later broke the offset agreement in the area when it supported the construction of the Isimba Hydroelectric Power (started in 2013 and now complete) within the Kalagala-Itanda offset area. [55]

Offsetting in the UK

Biodiversity Net Gain in England

Biodiversity offsetting has been formally implemented into the planning process in England through the introduction of Biodiversity Net Gain (BNG) on February 12 2024 under the Environment Act 2021 through modification to the Town and Country Planning Act. BNG is England’s domestic ecological compensation policy, designed to compensate for ecological harms caused by new developments. BNG requires that, to gain planning permission from Local Planning Authorities (LPAs), developers must demonstrate a 10% net gain in biodiversity [58] under the proposed development, relative to the pre-development scenario, using a 'Statutory Biodiversity Metric'.

Failure to meet this criterion obligates the developer to adjust their project plan, or compensate for the shortfall in biodiversity units through the purchase of biodiversity offsets, which are delivered either through a payment to the council or a third party, such as a broker managing a habitat bank. If no compensation sites are available within the local planning authority where the development is planned, compensation is permitted in other local authorities, triggering an increase in compensatory units required due to a spatial multiplier within the Metric. As a final option, developers can purchase 'statutory biodiversity credits' from the national government. Offsetting therefore represents a small proportion of biodiversity enhancements delivered through the policy; the majority of biodiversity enhancements come through habitat management activities implemented within the boundaries of new developments themselves. [58]

Assessments for Biodiversity Net Gain are conventionally integrated into the Ecological Impact Assessment (EcIA) process. This involves using data gathered from pre-development ecological surveys and processing it through the Statutory Biodiversity Metric (an Excel-based tool), to give a measure of the ecological value of a site in 'biodiversity units'. The metric uses habitat as a proxy for biodiversity [59] by combining factors like area, habitat condition, distinctiveness, and multiple parameters (like risk, the time required for habitat development, and the ecological significance of the site on a landscape scale) for each habitat section within the development area. Using the metric, an overall biodiversity score, measured in biodiversity units, is generated. Baseline biodiversity units within the development area and associated compensation areas owned or managed by developers are compared with anticipated biodiversity units following development. For example, if a develop damages a habitat of “high distinctiveness”, they will be required to compensate with habitat of the same type, instead of trading for a less ecologically-valuable habitat.

Preliminary scientific evidence on the ecological outcomes of Biodiversity Net Gain suggests the policy facilitates the trade of habitat losses from construction for smaller, but more ecologically valuable habitats to be delivered in the future. [58] There are concerns that the governance (monitoring and evaluation) of the biodiversity benefits delivered through the policy is insufficient to ensure these future biodiversity outcomes are effectively secured. [60] Additionally, there are concerns that the Biodiversity Metric may not be an effective proxy for biodiversity, and therefore that a net gain in biodiversity demonstrated by the metric may not translate into real-world improvements in biodiversity such as wildlife populations. [59]

Prior to Biodiversity Net Gain

Prior to this policy, developers could voluntarily incorporate offsets into project plans after following a mitigation hierarchy to manage risk to biodiversity by taking steps to avoid and minimise ecological harm at the development site, unless legally required for impacts to protected sites and species.

The Lawton Review in 2010 proposed that biodiversity offsets established through planning processes could be used to enhance ecological networks, but warned that biodiversity offsetting must not become ‘a licence to destroy’. [61] At the time the report was written, offsetting was mandatory only in areas where a development of great public interest would have a significant impact on the European Union’s Natura 2000 network or any site inhabited by a European protected species. The Review recommended the establishment of pilot schemes to test potential biodiversity offsetting systems in the country. A 2011 white paper ‘The natural choice: securing the value of nature’ responded to the Lawton review and announced plans to introduce voluntary biodiversity offsetting through pilot schemes. [62]

In April 2012, the Department for Environment, Food, and Rural Affairs (Defra) launched a voluntary biodiversity offsetting pilot scheme. [63] Developers in pilot areas were required to provide compensation for biodiversity loss under planning policy and were able to choose offsetting to do so. The scheme also aimed to test a biodiversity offsetting metric developed by Defra. This scheme included 6 pilot areas: Doncaster, Devon, Essex, Greater Norwich, Nottinghamshire, and Warwickshire. [64] In March 2014, the pilot scheme ended and was reviewed by Collingwood Environmental Planning Limited in partnership with the Institute for European Environmental Policy (IEEP). However, the scheme also drew criticism from Friends of the Earth who described it as a “licence to destroy” [65] and the possibility of like-for-like compensation of biodiversity loss has been questioned.

In 2012, a standard metric for biodiversity was piloted by Defra for use in the biodiversity offsetting pilot scheme. [66] Consultation from environment, planning, land management, academic, and development sectors led to numerous updated biodiversity metrics over a period of several years. Biodiversity Metric 4.0 was launched by Defra and Natural England in March 2023 to measure Biodiversity Net Gain. [67] A Statutory Biodiversity Metric was later introduced as part of the Environment Act as the legally mandated metric for use under the biodiversity net gain policy. This metric uses habitat as a proxy for biodiversity [59] by combining factors like area, habitat condition, distinctiveness, and multiple parameters (like risk, the time required for habitat development, and the ecological significance of the site on a landscape scale) for each habitat section within the development area.

The Government announced plans to mandate a biodiversity net gain policy in England in March 2019, as part of an Environment Bill that would require 'developers to ensure habitats for wildlife are enhanced and left in a measurably better state than they were pre-development’. [68] The Bill was later enacted as the Environment Act 2021. Initially, BNG was planned to come into force by November 2023, but delays meant that it was not implemented until February 12 2024. This delay was criticised by environmentalists, including The Wildlife Trusts, who called it “another hammer blow for nature.” [69] In response to these criticisms, a government spokesman reaffirmed the government’s commitment to BNG, saying that “we are fully committed to biodiversity net gain which will have benefits for people and nature.” [69]

Economic value

Biodiversity is increasingly seen as having economic value [70] due to growing recognition of the world's finite natural resources and through the benefits of ecosystem services (nature providing clean air, food and water, natural flood defences, pollination services and recreation opportunity). Placing financial value on biodiversity has created a marketplace for retaining and restoring habitats.

Financial gain from biodiversity offsetting is brought about through the sale of conservation credits by landowners through biodiversity banking mechanisms. Individuals or companies who are looking to receive financial payment in return for creating or enhancing particular wildlife habitats on their property can have their land valued in conservation credits by a biodiversity offsetting broker [71] who will then register their credits for sale [72] to developers looking to offset any residual impact to biodiversity from their approved developments.

Developers can also find the business of biodiversity offsetting appealing financially as the compensation payment for their project's residual biodiversity impact is handled in one agreement and the landowner receiving that payment (and therefore the habitat re-creation duties) is responsible for the biodiversity restoration and management thereafter. The cost may represent a small proportion of a developer's budget and is often outweighed by a project's long-term gains. As corporate social responsibility is often part of larger companies’ business priorities, being able to demonstrate environmentally responsible practices can be an additional incentive.

Biodiversity offsetting based upon showing the economic value of lost habitat is highly controversial. [73] The schemes proposed for the UK have been regarded as failing to protect biodiversity and indeed leading to further losses in the prioritisation of development over conservation. [74] The basic economics has been described by ecological economist Clive Spash as leading to the “bulldozing of biodiversity” under an approach that regards optimal species extinction as being necessary to achieve economic efficiency. [75]

Conservation credits

The cost of re-creating an area of habitat affected by a development proposal (impact site) can be calculated and represented as a number of conservation credits that a developer could purchase in order to offset their biodiversity impact. Land put forward for investment to re-create impacted biodiversity (receptor site) is also calculated in conservation credits (to account for the cost of creating or restoring biodiversity at that particular site and to cover the cost of its long-term conservation management). This situation enables the buying (by developers) and selling (by landowners) of conservation credits. Government approved (quantitative and qualitative) metrics should be used to calculate the number of conservation credits that can be applied to each site, in order to maintain accuracy and consistency in the value of a conservation credit.

Motivation

A decline in global biodiversity [76] is being driven, partially, by land-use changes, [77] including for the purpose of developing infrastructure. Reconciling economic development with the need to conserve biodiversity can therefore be a challenge, particularly in developing countries. [78] The need to address this decline acted as a motivation for creating a system within the planning process that tackles unavoidable and residual impacts to biodiversity.

Putting this into practice often involves formal evaluation of possible impacts on wildlife (and their habitat) at a potential development site before developers can receive approval. This may occur in the form of Environmental Impact Assessments (EIA), which look at how proposed projects would impact the environment (including biodiversity) at the development site in conjunction with social and economic issues. [79] EIAs have become widespread within the work of government planning authorities. In some jurisdictions, they are legally required and these requirements often motivate the use of biodiversity offsetting. [80]

The approval of a project proposal may depend upon the use of measures to mitigate its potential impacts. A package of measures, including biodiversity offsetting, could be recommended as part of the EIA process. [81] The mitigation hierarchy is commonly applied to EIAs to guide the mitigation of negative impacts on biodiversity. [81] The mitigation hierarchy is a framework of sequential steps (avoid, reduce/minimise, restore/rehabilitate, and offset) and biodiversity offsetting is its final step to counterbalance impacts that cannot be avoided or reduced. [82]

Controversy

Biodiversity offsetting is a subject of significant debate. Challenges associated with putting offsets into practice and governing them effectively have been recognised by both supporters and opponents of the concept. [83] For example, some of these challenges include: application of the mitigation hierarchy in practice, monitoring and evaluation programmes to track whether offsets are meeting targets, and the metrics used as a proxy for biodiversity losses and gains. [83] There is significant disagreement when it comes to whether offsets are feasible or acceptable as a tool for conserving biodiversity.

No net loss (NNL), commonly used as an objective for biodiversity offsets, is one reason for debate. A no net loss goal requires that biodiversity loss in one area is counterbalanced by potential but uncertain gains in another area. [84] Concerns have been raised over the feasibility of achieving this goal because of the complex nature of biodiversity in all of its aspects (such as species diversity, genetic diversity, etc.), meaning that efforts to quantify biodiversity and determine the equivalence between biodiversity in two different areas to determine losses and gains may be regarded as either difficult or impossible. [85] Further concerns have been expressed over substitution of biodiversity in a specific place for efforts to conserve biodiversity elsewhere, given that biodiversity can have a place-based cultural and spiritual value for humans but also because of a view of biodiversity as having an intrinsic value outside of benefits to humans. [86]

For the reasons mentioned above and others, critics have argued that offsetting is an ethically misguided process. For example, economist Clive Spash argued that biodiversity offsetting legitimises ongoing habitat destruction and promotes the "bulldozing of biodiversity". [87] A similar view is taken by the environmental organisation Friends of the Earth, who oppose the use of biodiversity offsets and have expressed concern at the use of measurable units to value nature. [88] Biodiversity offsetting has also been described by critics as a "licence to trash". [85]

Some have argued that the debate on biodiversity offsetting also forms part of a wider discussion on the ethics of economically valuing biodiversity and the application of neoliberal principles to biodiversity conservation. [89]

See also

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<span class="mw-page-title-main">Ecological restoration</span> Scientific study of renewing and restoring ecosystems

Ecological restoration, or ecosystem restoration, is the process of assisting the recovery of an ecosystem that has been degraded, damaged, or destroyed. It is distinct from conservation in that it attempts to retroactively repair already damaged ecosystems rather than take preventative measures. Ecological restoration can reverse biodiversity loss, combat climate change, and support local economies.

Environmental mitigation, compensatory mitigation, or mitigation banking, are terms used primarily by the United States government and the related environmental industry to describe projects or programs intended to offset known impacts to an existing historic or natural resource such as a stream, wetland, endangered species, archeological site, paleontological site or historic structure. Environmental mitigation is typically a part of an environmental crediting system established by governing bodies which involves allocating debits and credits. Debits occur in situations where a natural resource has been destroyed or severely impaired and credits are given in situations where a natural resource has been deemed to be improved or preserved. Therefore, when an entity such as a business or individual has a "debit" they are required to purchase a "credit". In some cases credits are bought from "mitigation banks" which are large mitigation projects established to provide credit to multiple parties in advance of development when such compensation cannot be achieved at the development site or is not seen as beneficial to the environment. Crediting systems can allow credit to be generated in different ways. For example, in the United States, projects are valued based on what the intentions of the project are which may be to preserve, enhance, restore or create (PERC) a natural resource.

<i>Environment Protection and Biodiversity Conservation Act 1999</i> Environmental law in Australia

The Environment Protection and Biodiversity Conservation Act 1999(Cth) is an Act of the Parliament of Australia that provides a framework for protection of the Australian environment, including its biodiversity and its natural and culturally significant places. Enacted on 17 July 2000, it established a range of processes to help protect and promote the recovery of threatened species and ecological communities, and preserve significant places from decline. The Act is as of June 2020 administered by the Department of Agriculture, Water and the Environment. Lists of threatened species are drawn up under the Act, and these lists, the primary reference to threatened species in Australia, are available online through the Species Profile and Threats Database (SPRAT).

<span class="mw-page-title-main">Conservation development</span> Controlled-growth land use development

Conservation development, also known as conservation design, is a controlled-growth land use development that adopts the principle for allowing limited sustainable development while protecting the area's natural environmental features in perpetuity, including preserving open space landscape and vista, protecting farmland or natural habitats for wildlife, and maintaining the character of rural communities. A conservation development is usually defined as a project that dedicates a minimum of 50 percent of the total development parcel as open space. The management and ownership of the land are often formed by the partnership between private land owners, land-use conservation organizations and local government. It is a growing trend in many parts of the country, particularly in the Western United States. In the Eastern United States, conservation design has been promoted by some state and local governments as a technique to help preserve water quality.

Ecologically sustainable development is the environmental component of sustainable development. It can be achieved partially through the use of the precautionary principle; if there are threats of serious or irreversible environmental damage, lack of full scientific certainty should not be used as a reason for postponing measures to prevent environmental degradation. Also important is the principle of intergenerational equity; the present generation should ensure that the health, diversity and productivity of the environment is maintained or enhanced for the benefit of future generations. In order for this movement to flourish, environmental factors should be more heavily weighed in the valuation of assets and services to provide more incentive for the conservation of biological diversity and ecological integrity.

<span class="mw-page-title-main">Payment for ecosystem services</span>

Payments for ecosystem services (PES), also known as payments for environmental services, are incentives offered to farmers or landowners in exchange for managing their land to provide some sort of ecological service. They have been defined as "a transparent system for the additional provision of environmental services through conditional payments to voluntary providers". These programmes promote the conservation of natural resources in the marketplace.

Mitigation banking is the preservation, enhancement, restoration or creation (PERC) of a wetland, stream, or habitat conservation area which offsets, or compensates for, expected adverse impacts to similar nearby ecosystems. The goal is to replace the exact function and value of specific habitats that would be adversely affected by a proposed activity or project. The public interest is served when enforcement agencies require more habitat as mitigation, often referred to as a mitigation ratio, than is adversely impacted by management or development of nearby acreage.

Biodiversity banking, also known as biodiversity trading, conservation banking, mitigation banking, habitat banking, compensatory habitat, or set-asides, describes a market-based framework for biodiversity offsetting where offsets can be traded in the form of credits to offset negative environmental impacts of development projects or activities. This involves biodiversity banks, areas with biodiversity value. On the site of a biodiversity bank, conservation activities may be carried out to preserve, restore, enhance, or conserve biodiversity. The outcomes of projects carried out at biodiversity banks are valued in the form of credits, which can be purchased as a way to offset unavoidable adverse environmental impacts, often with the aim of achieving no net loss of biodiversity.

<span class="mw-page-title-main">Sustainable gardening</span>

Sustainable gardening includes the more specific sustainable landscapes, sustainable landscape design, sustainable landscaping, sustainable landscape architecture, resulting in sustainable sites. It comprises a disparate group of horticultural interests that can share the aims and objectives associated with the international post-1980s sustainable development and sustainability programs developed to address that humans are now using natural biophysical resources faster than they can be replenished by nature.

<span class="mw-page-title-main">Environmental issues</span> Concerns and policies regarding the biophysical environment

Environmental issues are disruptions in the usual function of ecosystems. Further, these issues can be caused by humans or they can be natural. These issues are considered serious when the ecosystem cannot recover in the present situation, and catastrophic if the ecosystem is projected to certainly collapse.

Alberta Biodiversity Monitoring Institute (ABMI) is an agency that monitors and reports on biodiversity status throughout the province of Alberta, Canada, that is funded equally by the government of Alberta and the oil and gas industry. The Alberta Biodiversity Monitoring Institute is based in Edmonton, Alberta. According to Alberta Innovates-Technology Futures (AITF), a key partner in the ABMI, the ABMI, which acts as "an early warning system by monitoring the cumulative effects of biodiversity change in regions throughout Alberta" is "the largest project of its kind ever attempted in Canada." Collaborating agencies include the government-industry research agency Alberta Innovates-Technology Futures, the University of Alberta, University of Calgary and the Royal Alberta Museum. Along with the Alberta Forest Management Planning Standard, the ABMI are key components to implementing resource planning based on ecosystem management principles. Alberta Environment and Parks consults the Alberta Biodiversity Monitoring Agency's reports in monitoring and preservation of species, setting benchmarks for biodiversity for land use plans. If industry contributes to the endangerment of a species that falls below these benchmarks, the Government of Alberta can order remedial action.

<span class="mw-page-title-main">Conservation banking</span>

Conservation banking is an environmental market-based method designed to offset adverse effects, generally, to species of concern, are threatened, or endangered and protected under the United States Endangered Species Act (ESA) through the creation of conservation banks. Conservation banking can be viewed as a method of mitigation that allows permitting agencies to target various natural resources typically of value or concern, and it is generally contemplated as a protection technique to be implemented before the valued resource or species will need to be mitigated. The ESA prohibits the "taking" of fish and wildlife species which are officially listed as endangered or threatened in their populations. However, under section 7(a)(2) for Federal Agencies, and under section 10(a) for private parties, a take may be permissible for unavoidable impacts if there are conservation mitigation measures for the affected species or habitat. Purchasing “credits” through a conservation bank is one such mitigation measure to remedy the loss.

Soil sealing or soil surface sealing is the loss of soil resources due to the covering of land for housing, roads or other construction work. Covering or replacing the topsoil with impervious materials like asphalt and cement as a result of urban development and infrastructure construction paired with compaction of the underlying soil layers results in the mostly irreversible loss of relevant soil ecosystem services.The global rise in population has heightened the need for soil sealing, which in turn leads to the degradation of land. Sealed land is a serious form of land take .Soil sealing and land take together leads to the complete loss of soil functions, including its biological, physical and chemical properties.

<span class="mw-page-title-main">Wetlands and wetland policies in Canada</span>

Canadian wetlands account for approximately one quarter of the world's total wetlands and is ranked with the highest surface area of wetlands on the Ramsar Conventions List of Wetlands of International Importance. Canada holds 37 designated areas of International Importance which equates to approximately 13,086,767 hectares of land.

<span class="mw-page-title-main">Solar landfill</span> Landfill site converted into a solar power station

A solar landfill, also referred to as a brightfield, is a former landfill site that has been transformed into a solar array or solar farm. Landfills that are no longer in use are often called brownfields due to potential environmental concerns. By repurposing these brownfields into solar fields, they then become brightfields. In the United States, there are more than 10,000 closed or inactive landfills. These have the potential to accommodate over 60 gigawatts of solar installations.

A Biodiversity Impact Credit (BIC) is a transferable biodiversity credit designed to reduce global species extinction risk. The underlying BIC metric, developed by academics working at Queen Mary University of London and Bar-Ilan University, is given by a simple formula that quantifies the positive and negative effects that interventions in nature have on the mean long-term survival probability of species. In particular, an organisation's global footprint in terms of BICs can be computed from PDF-based biodiversity footprints. The metric is broadly applicable across taxa and ecosystems. Organisations whose overall biodiversity impact is positive in terms of the BIC metric contribute to achieving the objective of the Global Biodiversity Framework to "significantly reduce extinction risk".

Nature positive is a goal to halt and reverse nature loss by 2030, and to achieve full nature recovery by 2050. According to the World Wide Fund for Nature, the aim is to achieve this through "measurable gains in the health, abundance, diversity, and resilience of species, ecosystems, and natural processes." Progress towards this goal is generally measured from a biodiversity baseline of 2020 levels.

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