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Climate finance

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Investments in sustainable energy (clean energy) is an example of climate finance. As of 2023, it has increased due to high fossil fuel prices and growing policy support across various nations.[1]

Climate finance is an umbrella term for financial resources such as loans, grants, or domestic budget allocations for climate change mitigation, adaptation or resiliency. Finance can come from private and public sources. It can be channeled by various intermediaries such as multilateral development banks or other development agencies. Those agencies are particularly important for the transfer of public resources from developed to developing countries in light of UN Climate Convention obligations that developed countries have.[2]: 7 

There are two main sub-categories of climate finance based on different aims. Mitigation finance is investment that aims to reduce global carbon emissions. Adaptation finance aims to respond to the consequences of climate change.[3] Globally, there is a much greater focus on mitigation, accounting for over 90% of spending on climate.[4][5]: 2590  Renewable energy is an important growth area for mitigation investment and has growing policy support.[6]: 5 

Finance can come from private and public sources, and sometimes the two can intersect to create financial solutions. It is widely recognized that public budgets will be insufficient to meet the total needs for climate finance, and that private finance will be important to close the finance gap.[7]: 16  Many different financial models or instruments have been used for financing climate actions. For example green bonds, carbon offsetting, and payment for ecosystem services are some promoted solutions. There is considerable innovation in this area. Transfer of solutions that were not developed specifically for climate finance is also taking place, such as public–private partnerships and blended finance.

There are many challenges with climate finance. Firstly, there are difficulties with measuring and tracking financial flows. Secondly, there are also questions around equitable financial support to developing countries for cutting emissions and adapting to impacts. It is also difficult to provide suitable incentives for investments from the private sector.

Definition and context

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Climate finance is "finance that aims at reducing emissions, and enhancing sinks of greenhouse gases and aims at reducing vulnerability of, and maintaining and increasing the resilience of, human and ecological systems to negative climate change impacts", as defined by the United Nations Framework Convention on Climate Change (UNFCCC) Standing Committee on Finance.[8]

UNFCCC obligations

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Under the UN Climate Convention, climate finance refers to transfers of public money from high income countries to low and middle income countries. This would be in light of their obligations to provide new and additional financial resources. The 2015 United Nations Climate Change Conference introduced a new era for climate finance, policies, and markets. The Paris Agreement, which was adopted at that conference, defined a global action plan to put the world on track to avoid dangerous climate change by limiting global warming to well below 2 °C above pre-industrial levels. The agreement covers climate change mitigation, adaptation, and finance. The financing element includes climate-specific support mechanisms and financial aid for mitigation and adaptation activities. The aims of these activities are to speed up the energy transition towards a low-carbon economy and climate-resilient growth.[9]

At the 16th Conference of the Parties in 2010 (Cancun 2010) developed countries committed to the goal of mobilizing jointly USD 100 billion per year by 2020 to address the needs of developing countries. The decision by the 21st Conference of the Parties (Paris 2015) also included the commitment to continue their existing collective mobilization goal through 2025.[10][11] In 2025, a new goal is expected to be adopted.

However, the amount of finance actually provided was estimated to be well below what had been targeted. According to OECD figures, climate finance provided and mobilized reached $83.3bn in 2020 and $89.6bn in 2021.[4][12] This means that the US$100 billion per year by 2020 target has been missed.

Global estimates of financing needs

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Global climate finance was estimated to have reached around $1.3 trillion per year in 2021/2022. However, much more is needed to keep global temperature rises within 1.5°C and avoid the worst impacts of climate change. A 2024 report estimated that climate finance flows must increase by at least sixfold on 2021/2022 levels, reaching $8.5 trillion per year by 2030.[2]

Subcategories

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Mitigation finance is investment that aims to reduce global carbon emissions. Adaptation finance aims to respond to the consequences of climate change.[3]: 1553–1554  These two subcategories of climate finance are normally considered separately. However, the two areas are known to have many trade-offs, co-benefits and overlapping policy considerations. The Paris Agreement is an important international agreement between governments, which has also helped to engage financial institutions in the climate agenda. The third aim of the Agreement (article 2.1 c) is to make finance flows consistent with the mitigation and adaptation goals of the agreement.[3]: 1553–1555  The Agreement called for a balance of climate finance between adaptation and mitigation.

Finance for mitigation

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Graph of global investment for renewable energy, electrified heat and transport, and other non-fossil-fuel energy sources
Electrified transport and renewable energy are key areas of investment for climate change mitigation via an energy transition.[13][14]

Global climate finance is heavily focused on mitigation. Key sectors for investment have been renewable energy, energy efficiency and transport.[3]: 1549, 1564  There has also been an increase in international climate finance towards the 100 billion target. Most of the estimated US$83.3 billion provided to developing countries in 2020, was targeted at mitigation (US$48.6 billion, or 58%).[4] On a worldwide scale, mitigation financing accounts for over 90% of investment in climate finance. Around 70% of this mitigation money has gone towards renewable energy, however low-carbon mobility is a key development sector.[15][6] Global energy investment has increased since the 2020 COVID-19 pandemic crisis. However, the crisis has placed great additional strain on the global economy, debt and the availability of finance, which are expected to be felt in years to come.[3]: 1555 

Mitigation costs and mitigation financing needs

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In 2010, the World Development Report preliminary estimates of financing needs for mitigation and adaptation activities in developing countries range from $140 to 175 billion per year for mitigation over the next 20 years with associated financing needs of $265–565 billion and $30–100 billion a year over the period 2010–2050 for adaptation.[16]

The International Energy Agency's 2011 World Energy Outlook (WEO) estimates that in order to meet the growing demand for energy through 2035, $16.9 trillion in new investment for new power generation is projected, with renewable energy (RE) comprising 60% of the total.[17] The capital required to meet projected energy demand through 2030 amounts to $1.1 trillion per year on average, distributed (almost evenly) between the large emerging economies (China, India, Brazil, etc.) and the remaining developing countries.[18] It is believed that over the next 15 years, the world will require about $90 trillion in new infrastructure – most of it in developing and middle-income countries.[19] The IEA estimates that limiting the rise in global temperature to below 2 Celsius by the end of the century will require an average of $3.5 trillion a year in energy sector investments until 2050.[19]

A meta-analysis from 2023 investigated the "required technology-level investment shifts for climate-relevant infrastructure until 2035" within the EU, and found these are "most drastic for power plants, electricity grids and rail infrastructure", ~€87 billion above the planned budgets in the near-term (2021–25), and in need of sustainable finance policies.[20][21]

Finance for adaptation

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Finance is an important enabler for climate adaptation, for both developed and developing countries.[5]: 2586  It can come from a variety of sources. Public finance is provided directly by governments or via intermediaries such as development finance institutions (e.g. MDBs or other development agencies). It can also be channeled through multilateral climate funds. Some multilateral climate funds have a specific focus on adaptation within their mandate. These include the Green Climate Fund, the CIFs and the Adaptation Fund. Private finance can come from commercial banks, institutional investors, other private equity or other companies or from household or community funding. The vast majority of tracked finance (around 98%) has originated from public sources. This is partly because of the lack of a well-defined income stream or business case with an attractive return on investment on projects.[5]: 2590 [22]

Finance can be delivered through a range of instruments including grants or subsidies, concessional and non-concessional (i.e. market) loans as well as other debt instruments, equity issuances (listed or unlisted shares) or can be delivered through own funds, such as savings.[5]: 2588  The largest proportions of adaptation finance have been invested in infrastructure, energy, built environment, agriculture, forestry/nature and water-related projects.[5]: 2596 

Only around 4-8% of total climate finance has been allocated to adaptation. The vast majority has been allocated to mitigation with only around 1-2% on multiple objectives.[5]: 2590 

Adaptation costs and adaptation financing needs

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Adaptation costs are the costs of planning, preparing for, facilitating and implementing adaptation.[7]: 31  Adaptation benefits can be estimated in terms of reduced damages from the effects of climate change. In economic terms, the cost to benefit ratio of adaptation shows that each dollar can deliver large benefits. For example, it is estimated that every US$1 billion invested in adaptation against coastal flooding leads to a US$14 billion reduction in economic damages.[7]: 52  Investing in more resilient infrastructure in developing countries would provide an average of $4 in benefit for each $1 invested.[23] In other words, a small percentage increase in investment costs can mitigate the potentially very large disruption to infrastructure costs.

A 2023 study found the overall adaptation costs for all developing countries to be around US$215 billion per year for the period up to 2030. The highest adaptation expenses are for river flood protection, infrastructure and coastal protection. They also found that in most cases, adaptation costs will be significantly higher by 2050.[7]: 35–36 

It is difficult to estimate both the costs of adaptation and the adaptation finance needs. The costs of adaptation varies with the objective and the level of adaptation required and what is acceptable as residual, i.e. 'unmanaged' risk.[7]: 33  Similarly, adaptation finance needs vary depending on the overall adaptation plans for the country, city, or region. It also depends on the assessment methods used. A 2023 study analysed country-level information submitted to the UNFCCC in National Adaptation Plans and Nationally Determined Contributions (85 countries). It estimated global adaptation needs of developing countries annual average to be US$387 billion, for the period up to 2030.[7]: 31 

Both the cost estimates and needs estimates have high uncertainty. Adaptation costs are usually derived from economic modelling analysis (global or sectoral models). Adaptation needs are based on programme and project-level costing.[7]: 37  These programmes depend on the high level adaptation instrument – such as a plan, policy or strategy. For many developing countries, the implementation of certain actions specified in the plans is conditional on receiving international support. in these countries, a majority (85%) of finance needs are expected to be met from international public climate finance, i.e. funding from developed to developing countries.[7]: 38  There is less data available for adaptation costs and adaptation finance needs in high income countries. Data show that per capita needs tend to increase with income level, but these countries can also afford to invest more domestically.[7]: 39 

Current levels of financing and the finance gap

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Between 2017 and 2021, total international public finance to developing countries for climate adaptation has remained well below US$30 billion per year.[7]: 42  This equals about 33% of the total public climate finance, with an additional 14% spending on cross-cutting activities (supporting both adaptation and mitigation). This includes finance from multilateral development banks, bilateral agencies and multilateral climate funds as the three largest types of provider. 63% of the adaptation-specific funding was provided as loans, and 36% as grants.[7]: 45  Disbursement of funds for adaptation, at 66% of the amounts committed, is much lower than for mitigation. This indicates difficulty and complexity of implementation.[7]: 46 

The adaptation finance gap is the difference between estimated costs of adaptation and the amount of finance available for adaptation.[7]: 31  Based on data over 2017-2021, the estimated costs or needs are around 10-18 times as much as current levels of public flows. Domestic budgets and private climate finance for adaptation are not included in these figures. The gap has widened compared to previous assessments. Increasing both international and domestic public finance and mobilising private finance can help to close the finance gap. Other options include remittances, increased finance for small businesses, and reform of the international financial system, for example through changes in managing vulnerable countries' debt burden.[3]: 1550 [7]: 16 

Types of finance

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Multilateral climate finance

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Multilateral climate funds

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The multilateral climate funds (i.e. governed by multiple national governments) are important for paying out money in climate finance. As of 2022, there are five multilateral climate funds coordinated by the UNFCCC. These are the Green Climate Fund (GCF), the Adaptation Fund (AF), the Least Developed Countries Fund (LDCF), the Special Climate Change Fund (SCCF) and the Global Environment Facility (GEF). The largest of these, the GCF, was formed in 2010.[24][25]

The other main multilateral fund, Climate Investment Funds (CIFs), is coordinated by the World Bank. The Climate Investment Funds has been important in climate finance since 2008.[26][27] It comprises two funds, the Clean Technology Fund and the Strategic Climate Fund. The latter sponsors innovative approaches to existing climate change challenges, whereas the former invests in clean technology projects in developing countries.

Also in 2022, nations agreed on a proposal to establish a multilateral loss and damage fund to support communities in averting, minimizing, and addressing damages and risks where adaptation is not enough or comes too late.[28]: 63 

Some multi-lateral climate change funds work through grant-only programmes. Other multilateral climate funds use a wider range of financing instruments, including grants, concessional loans, equity (shares in an entity) and risk mitigation options.[5]: 2583  These are intended to crowd in other sources of finance, whether from domestic governments, other donors, or the private sector.

Multilateral development banks

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Multilateral development banks (MDBs) are important providers of international climate finance. MDBs are financial vehicles created by governments to support economic and social efforts, predominantly in developing countries. The MDBs goals usually mirror the aid and collaboration regulations of their founding members.[29] They complement the programmes of (national government) members' bilateral development agencies, allowing them to work in more countries and at a larger scale.[30] The Paris Agreement also provided momentum for the MDBs to align their investments and strategies with climate goals, and in 2018 the MDBs collectively announced a joint framework for financial flows.[3]: 1553  The MDBs use the widest range of financing instruments including grants, investment loans, equity, guarantees, policy-based financing and results-based financing.[5]: 2583 

The World Bank uses money contributed by governments and companies in OECD countries to purchase project-based greenhouse gas emission reductions in developing countries and countries with economies in transition. These include the BioCarbon Fund Initiative, which is a public-private partnership providing finance for the land use sector. The Partnership for Market Readiness focuses on market-based mechanisms. The Forest Carbon Partnership Facility explores use of carbon market revenues for reducing emissions from deforestation and forest degradation (REDD+).[31]

Bilateral climate finance

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Financial flows for climate change mitigation and adaptation in developing countries[32]

Bilateral institutions include development cooperation agencies and national development banks. Until quite recently they have been the largest contributors to climate finance, but since 2020 bilateral flows have decreased whilst multilateral funding has grown.[3]: 1553  Some bilateral donors have thematic or sectoral priorities, whilst many also have geopolitical preferences for working in certain countries or regions.[5]: 2583 

Bilateral institutions include donors such as the USAID, the Japan International Cooperation Agency (JICA), Germany's KfW Development Bank and the UK Foreign, Commonwealth and Development Office (FCDO). Many bilateral agencies also make donations through multilateral channels and this allows them to work in more countries and at a larger scale.[30] However the overall international climate finance system (for financial flows from developed to developing countries) is complex and fragmented, with overlapping mandates and objectives. This creates significant co-ordination problems.[32][33]: 9 

Domestic public climate finance

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Financial flows and expenditures by national governments on climate are significant. Domestic targets on addressing climate change are set out in national strategies and plans, including those submitted to the UNFCCC under the Paris Agreement. For many developing countries, the plans submitted include targets attached to international financial and technical support (i.e. conditional targets).

National-level coordination of climate funding is important for meeting these domestic targets, and in the case of developing countries, also for accessing international funding.[33]: 9  For all countries and regions, it is recognised that public funding will not be sufficient to meet all finance needs. This means that policy makers need to take a strategic approach through using public funding to leverage additional private finance. Other funding can come from financial institutions such as banks, pension funds, insurance companies and asset managers. Sometimes, public and private sources of funding can be blended into a single solution, for example in insurance, where public funds provide part of the capital.[3]: 1566 

Private climate finance

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Public finance has traditionally been a significant source of infrastructure investment. However, public budgets are often insufficient for larger and more complex infrastructure projects, particularly in lower-income countries. Climate-compatible investments often have higher investment needs than conventional (fossil fuel) measures,[34] and may also carry higher financial risks because the technologies are not proven or the projects have high upfront costs.[35] If countries are going to access the scale of funding required, it is critical to consider the full spectrum of funding sources and their requirements, as well as the different mechanisms available from them, and how they can be combined.[36] There is therefore growing recognition that private finance will be needed to cover the financing shortfall.[37]

Private investors could be drawn to sustainable urban infrastructure projects where a sufficient return on investment is forecast based on project income flows or low-risk government debt repayments. Bankability and creditworthiness are therefore prerequisites to attracting private finance.[38] Potential sources of climate finance include commercial banks, pension funds, insurance companies, asset managers, sovereign wealth funds, venture capital (such as fixed income and listed equity products), infrastructure funds and bank lending (including loans from credit unions). They also include companies from other sectors such as renewable energy or water companies, and individual households and communities.[3]: 1566  These different investor types will have different risk-return expectations and investment horizons, and projects will need to be structured appropriately.[39]

During the COVID-19 pandemic, climate change was addressed by 43% of EU enterprises. Despite the pandemic's effect on businesses, the percentage of firms planning climate-related investment rose to 47%. This was a rise from 2020, when the percentage of climate related investment was at 41%.[40][41] Climate investment in Europe has been growing in the 2020s. However, the need for the EU's "Fit for 55" climate package remains 356 billion euros a year. Since 2020, US firms' desire to innovate has increased, whereas European firms' has decreased.[42] As of 2022, spending in climate for European enterprises has climbed by 10%, reaching 53% on average. This has been especially noticeable in Central and Eastern Europe at 25% and in small and medium-sized firms (SMEs) with a 22% increase in climate financing.[43]

Carbon offsetting through voluntary carbon markets is a way for private sector enterprises to invest in projects that avoid or reduce emissions elsewhere. The original carbon offsetting and credit mechanisms were "flexibility mechanisms" defined in the Kyoto Protocol. They comprise the compliance carbon market, focusing on trading/crediting (obligatory) emission reductions between countries. In voluntary carbon markets, companies or individuals use carbon offsets to meet the goals they set themselves for reducing emissions. Voluntary carbon markets are growing significantly.[44] Mechanisms such as REDD+ include private sector contributions via voluntary carbon markets.[3]: 1608  However, the relative flows of private finance from developed to developing countries remain quite small. It is estimated that over 90% of private climate flows remain within national borders.[3]: 1577 

Financial instruments

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Several different financial models or instruments have been used for financing climate actions. The overall business model may include several of these financing mechanisms combined to create the climate solution. Financial models can belong to different categories e.g. public budgets, debt, equity, land value capture or revenue generating models etc.

Debt-for-climate swaps

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Debt-for-climate swaps happen where debt accumulated by a country is repaid upon fresh discounted terms agreed between the debtor and creditor, where repayment funds in local currency are redirected to domestic projects that boost climate mitigation and adaptation activities.[45] Climate mitigation activities that can benefit from debt-for-climate swaps includes projects that enhance carbon sequestration, renewable energy and conservation of biodiversity as well as oceans.

For instance, Argentina succeeded in carrying out such a swap which was implemented by the Environment Minister at the time, Romina Picolotti. The value of debt addressed was $38,100,000 and the environmental swap was $3,100,000 which was redirected to conservation of biodiversity, forests and other climate mitigation activities.[46] Seychelles in collaboration with the Nature Conservancy also undertook a similar debt-for-nature swap where $27 million of debt was redirected to establish marine parks, ocean conservation and ecotourism activities.[47]

Green bonds

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A green bond is a fixed-income financial instruments (bond) which is used to fund projects that have positive environmental benefits.[48][49] When referring to climate change mitigation projects they are also known as climate bonds. Green bonds follow the Green Bond Principles stated by the International Capital Market Association (ICMA), and the proceeds from the issuance of which are to be used for the pre-specified types of projects.[50] The categories of eligible green projects include for example: Renewable energy, energy efficiency, pollution prevention and control, environmentally sustainable management of living natural resources and land use, terrestrial and aquatic biodiversity, clean transportation, climate change adaptation.[50]: 4 

Like normal bonds, green bonds can be issued by governments, multi-national banks or corporations and the issuing organization repays the bond and any interest. The main difference is that the funds will be used only for positive climate change or environmental projects. This allows investors to target their environmental, social, and corporate governance (ESG) goals by investing in them. They are similar to Sustainability Bonds but sustainability bonds also need to have a positive social outcome.[51]

The growth of bond markets provides increasing opportunities to finance the implementation of the Sustainable Development Goals (SDGs)[52], Nationally Determined Contributions and other green growth projects. A UN conference held on the Sustainable Development Goals in 2021 emphasized the importance of sustainable bonds, and stated that of the approximately €300 trillion of financial assets on the markets, only 1% would be needed to achieve the SDGs.[53][54][55]

Offsetting (credit trading)

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Renewable energy projects, such as these wind turbines near Aalborg, Denmark, constitute one common type of carbon offset project.[56]
Carbon offsetting is a carbon trading mechanism that enables entities to compensate for offset greenhouse gas emissions by investing in projects that reduce, avoid, or remove emissions elsewhere. When an entity invests in a carbon offsetting program, it receives carbon credit or offset credit, which account for the net climate benefits that one entity brings to another. After certification by a government or independent certification body, credits can be traded between entities. One carbon credit represents a reduction, avoidance or removal of one metric tonne of carbon dioxide or its carbon dioxide-equivalent (CO2e).

Other financial instruments

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The following financial instruments can also be used for climate finance but were not developed specifically for climate finance:

Finance committed and dispersed

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In 2019, CPI estimated that annual climate finance reached more than US$600 billion.[57] Data for 2021/2022 showed it to be almost USD 1.3 trillion, with most of the increase coming from acceleration in mitigation finance (renewable energy and transport sectors).[6] These figures take into account all countries and both private and public finance. The bulk of this finance is raised and spent domestically (84% in 2021/2022). International public climate finance from developed to developing countries was found to be well below US$70 billion per year for the period 2017-2021.[7]: 42  The OECD, which includes export credits and mobilised private finance, estimated 2021 flows to be USD$89.6 billion.[12] There are differences in estimates due to different definitions and methods used.

As of November 2020, development banks and private finance had not reached the US$100 billion per year investment stipulated in the UN climate negotiations for 2020.[11] However, in the face of the COVID-19 pandemic's economic downturn, 450 development banks pledged to fund a "Green recovery" in developing countries.[11]

In 2016, the four main multilateral climate funds approved $2.78 billion of project support. India received the most single-country support, followed by Ukraine and Chile. Tuvalu received the most funding per person, followed by Samoa and Dominica. The US is the largest donor across the four funds, while Norway makes the largest contribution relative to population size.[58] Climate financing by the world's six largest multilateral development banks (MDBs) rose to a seven-year high of $35.2 billion in 2017. According to OECD figures, climate finance provided and mobilized reached $83.3bn in 2020. Another study reported that the money given for climate change was only worth about a third of what was said ($21–24.5bn).[59]

In 2009, developed countries had committed to jointly mobilize $100 billion annually in climate finance by 2020 to support developing countries in reducing emissions and adapting to climate change.[60]

European Investment Bank

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Since 2012, the European Investment Bank (EIB) has provided €170 billion in climate funding, which has funded over €600 billion in programs to mitigate emissions and help people respond to climate change and biodiversity depletion across Europe and the world.[61][62] In 2022, the Bank's funding for climate change and environmental sustainability projects totaled €36.5 billion. This includes €35 billion for initiatives supporting climate action and €15.9 billion for programs supporting environmental sustainability goals. Projects with combined climate action and environmental sustainability advantages received €14.3 billion in funding.[63] Over 2021-2030, the Bank wants to assist €1 trillion in green investment.[64] Currently, only 5.4% of the Bank's loans for climate action are dedicated to climate adaptation, but funding did increase significantly in 2022, reaching €1.9 billion.[65]

The European Investment Bank plans to support €1 trillion of climate investment by 2030 as part of the European Green Deal.[66] In 2019 the EIB Board of Directors approved new targets for climate action and environmental sustainability to phase out fossil fuel financing.[67][68] The bank will increase the share of its financing for to climate action and environmental sustainability to 50% by 2025 The European Investment Bank Group announced it will align all financing with the Paris Agreement by the end of 2020. The bank aims "to play a leading role in mobilising the finance needed to achieve the worldwide commitment to keep global warming well below 2˚C, aiming for 1.5˚C."[69][70] EIB loans to the sustainable blue economy totalled €6.7 billion between 2018 and 2022, generating €23.8 billion in investments, and €2.8 billion in maritime renewable energy.[71] In the same timeframe, the Bank granted around €881 million to assist in the management of wastewater, stormwater, and solid waste to decrease pollution entering the ocean.[72][73] In 2023, EIB energy loans climbed to €21.3 billion, up from €11.6 billion in 2020. This funding supports energy efficiency, renewable energy, innovation, storage, and new energy network infrastructure.[74]

The EIB, the European Commission, and Breakthrough Energy, launched by Bill Gates in 2015, have collaborated to build large-scale green tech initiatives in Europe and encourage investment in crucial climate technologies.[75]

According to a 2020 Municipality Survey, 56% of European Union municipalities increased climate investment, while 66% believe their climate investment over the previous three years has been insufficient.[76][77][78] In the three years preceding the pandemic, over two-thirds of EU towns boosted infrastructure investments, with a 56% focus on climate change mitigation.[79]

Local municipalities contribute 45% of total government investment. Basic infrastructure, such as public transportation or water utilities, is included in their investment. They also update public facilities including schools, hospitals, and social housing. Prioritizing energy efficiency in these projects will assist Europe in meeting climate targets.[80][79]

More firms (in Europe) plan to invest in low-carbon sectors, and to tackle climate change.[81]

Eastern European and Central Asian businesses fall behind their Southern European counterparts in terms of the average quality of their green management practices, notably in terms of specified energy consumption and emissions objectives.[82][83] External variables, such as consumer pressure and energy taxes, are more relevant than firm-level features, such as size and age, in influencing the quality of green management practices. Firms with less financial limitations and stronger green management practices are more likely to invest in a bigger variety of green initiatives. Energy efficiency investments are good to both the bottom line and the environment.[82][83]

Challenges

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Tracking climate finance flows

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Information on climate finance flows is much better for international climate finance than for domestic climate finance.[3]: 1566  International public finance from multilateral and bilateral sources can be tagged to specify that it is targeting climate mitigation or adaptation or both (i.e. is cross-cutting).[84] A number of initiatives are underway to monitor and track flows of international climate finance.[85] For example analysts at Climate Policy Initiative (CPI) have tracked public and private sector climate finance flows from a variety of sources on a yearly basis since 2011.

This work has fed into the United Nations Framework Convention on Climate Change Biennial Assessment and Overview of Climate Finance Flows[86] and in the IPCC Fifth Assessment Report and IPCC Sixth Assessment Report chapters on climate finance. These suggest a need for more efficient monitoring of climate finance flows.[87] In particular, they suggest that funds can do better at synchronizing their reporting of data, being consistent in the way that they report their figures, and providing detailed information on the implementation of projects and programs over time. There is also a need for improved reporting and tracking by domestic and private climate finance actors. This could be achieved through national regulations for mandatory and standardized disclosure.[22]: 55 

Climate finance gap

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Research finds substantially lower bilateral climate finance numbers than current official estimates.[88][89][90][91] Reasons are among others a lack of universally agreed-upon definitions of what qualifies as international climate finance and no oversight.[92] This has led to an inclusion of non-climate projects, a lack of transparency and ultimately a credibility issue regarding official international climate finance reporting.[92]

The estimates of the climate finance gap - that is, the shortfall in investment - vary according to the geographies, sectors and activities included, timescale and phasing, target and the underlying assumptions. The 2018 Biennial Assessment estimated financing needs for mitigation between 2020 and 2030 to be USD$1.7-2.4 trillion per year.[86]

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Developed countries are responsible for the majority of cumulative greenhouse gas emissions since the industrialization and generally have greater capacity to provide support. Therefore, it is argued, that they have a moral responsibility and a legal obligation to provide finance to help developing countries undertake climate action.[10] At the 16th Conference of the Parties in 2010 developed countries committed to the goal of mobilizing jointly USD 100 billion per year by 2020 to address the needs of developing countries, and the decision by the 2015 United Nations Climate Change Conference also included the commitment to continue their existing collective mobilization goal through 2025.[10] However, these agreements don't offer guidance on how to allocate climate finance responsibility to individual countries.

Several institutions and researchers have developed methodologies to determine country-specific contribution shares based on equity-principles. All models have in common that they at least use one wealth variable (e.g. share of GDP or GNI) to consider the ability to pay and an emission variable (share of CO2 or GHG) to reflect emission responsibility.[10] Some models additionally consider countries' population or their willingness to pay.[10] Furthermore, another proposal of a mechanism suggests to incorporate forward-looking data in so-called dynamic models. For the dynamic components, the share of GDP is determined by a 2030 forecast adjusted for expected climate damages and the share of GHGs covers future emissions up to 2030 and accounts for unconditional emission reduction targets submitted by the countries where available.[93]

Incentivizing private investment in adaptation

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Climate change adaptation is a much more complex investment area than mitigation. This is mainly because of the lack of a well-defined income stream or business case with an attractive return on investment on projects. There are several specific challenges for private investment:[94][95]

  • Adaptation is often needed in non-market sectors or is focused on public goods that benefit many. So there is a shortage of projects that are attractive to the private sector;
  • There is a mismatch between the timing of investments needed in the short term and the benefits that may occur in the medium or long term. Future returns are less attractive to investors than short-term returns;
  • There is a lack of information about investment opportunities. This especially concerns uncertainties associated with future impacts and benefits. These are key considerations when returns may accrue over longer timeframes;
  • There are gaps in human resources and capacities to design adaptation projects and understand financial implications of legal, economic and regulatory frameworks.

However, there is considerable innovation in this area. This is increasing the potential for private sector finance to play a larger role in closing the adaptation finance gap.[96] Economists state that climate adaptation initiatives should be an urgent priority for business investment.[97][98]

See also

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References

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  1. ^ "World Energy Investment 2023 / Overview and key findings". International Energy Agency (IEA). 25 May 2023. Archived from the original on 31 May 2023. Global energy investment in clean energy and in fossil fuels, 2015-2023 (chart) — From pages 8 and 12 of World Energy Investment 2023 (archive).
  2. ^ a b "Top-down Climate Finance Needs". CPI. Retrieved 2024-06-27.
  3. ^ a b c d e f g h i j k l m Kreibiehl, S., T. Yong Jung, S. Battiston, P. E. Carvajal, C. Clapp, D. Dasgupta, N. Dube, R. Jachnik, K. Morita, N. Samargandi, M. Williams, 2022: Investment and finance. In IPCC, 2022: Climate Change 2022: Mitigation of Climate Change. Contribution of Working Group III to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [P.R. Shukla, J. Skea, R. Slade, A. Al Khourdajie, R. van Diemen, D. McCollum, M. Pathak, S. Some, P. Vyas, R. Fradera, M. Belkacemi, A. Hasija, G. Lisboa, S. Luz, J. Malley, (eds.)]. Cambridge University Press, Cambridge, UK and New York, NY, USA. doi:10.1017/9781009157926.017
  4. ^ a b c OECD (2022), Aggregate trends of Climate Finance Provided and Mobilised by Developed Countries in 2013-2020, https://www.oecd.org/climate-change/finance-usd-100-billion-goal .
  5. ^ a b c d e f g h i New, M., D. Reckien, D. Viner, C. Adler, S.-M. Cheong, C. Conde, A. Constable, E. Coughlan de Perez, A. Lammel, R. Mechler, B. Orlove, and W. Solecki, 2022: Chapter 17: Decision-Making Options for Managing Risk. In: Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [H.-O. Pörtner, D.C. Roberts, M. Tignor, E.S. Poloczanska, K. Mintenbeck, A. Alegría, M. Craig, S. Langsdorf, S. Löschke, V. Möller, A. Okem, B. Rama (eds.)]. Cambridge University Press, Cambridge, UK and New York, NY, USA, pp. 2539–2654, doi:10.1017/9781009325844.026
  6. ^ a b c "Global Landscape of Climate Finance 2023" (PDF). CPI.
  7. ^ a b c d e f g h i j k l m n o United Nations Environment Programme (2023). Adaptation Gap Report 2023: Underfinanced. Underprepared. Inadequate investment and planning on climate adaptation leaves world exposed. Nairobi. https://doi . org/10.59117/20.500.11822/43796
  8. ^ "Documents | UNFCCC". unfccc.int. Retrieved 2018-09-08.
  9. ^ Barbara Buchner, Angela Falconer, Morgan Hervé-Mignucci, Chiara Trabacchi and Marcel Brinkman (2011) "The Landscape of Climate Finance" A CPI Report, Climate Policy Initiative, Venice (Italy), p. 1 and 2.
  10. ^ a b c d e Thwaites, Joe; Bos, Julie (2021). "A Breakdown of Developed Countries' Public Climate Finance Contributions Towards the $100 Billion Goal". World Resources Institute: 58. doi:10.46830/writn.20.00145.
  11. ^ a b c "Banks around world in joint pledge on 'green recovery' after Covid". the Guardian. 2020-11-11. Retrieved 2020-11-12.
  12. ^ a b OECD (2023), Climate Finance Provided and Mobilised by Developed Countries in 2013-2021: Aggregate Trends and Opportunities for Scaling Up Adaptation and Mobilised Private Finance, Climate Finance and the USD 100 Billion Goal, OECD Publishing, Paris, doi:10.1787/e20d2bc7-en.
  13. ^ Catsaros, Oktavia (26 January 2023). "Global Low-Carbon Energy Technology Investment Surges Past $1 Trillion for the First Time". Bloomberg NEF (New Energy Finance). Figure 1. Archived from the original on 22 May 2023. Defying supply chain disruptions and macroeconomic headwinds, 2022 energy transition investment jumped 31% to draw level with fossil fuels
  14. ^ "Global Clean Energy Investment Jumps 17%, Hits $1.8 Trillion in 2023, According to BloombergNEF Report". BNEF.com. Bloomberg NEF. 30 January 2024. Archived from the original on June 28, 2024. Start years differ by sector but all sectors are present from 2020 onwards.
  15. ^ Bank, European Investment (2023-09-27). Finance in Africa: Uncertain times, resilient banks: African finance at a crossroads. European Investment Bank. ISBN 978-92-861-5598-7.
  16. ^ World Bank Group(2010), "World Development Report 2010: Development and Climate Change, World Bank Groupe, Washington DC, ch. 6, p. 257
  17. ^ International Energy Agency (2011). World Energy Outlook 2011, OECD and IEA, Paris (France), Part B, ch.2
  18. ^ International Energy Agency (2011). World Energy Outlook 2011}, OECD and IEA, Paris (France), Part B, ch.2
  19. ^ a b "Climate Finance". World Bank. Retrieved 2018-09-08.
  20. ^ "Studie sieht EU-weit 87 Milliarden Euro Mehrbedarf bei Erneuerbaren und E-Verkehr | MDR.DE". www.mdr.de (in German). Archived from the original on 17 February 2023. Retrieved 17 February 2023.
  21. ^ Klaaßen, Lena; Steffen, Bjarne (January 2023). "Meta-analysis on necessary investment shifts to reach net zero pathways in Europe". Nature Climate Change. 13 (1): 58–66. Bibcode:2023NatCC..13...58K. doi:10.1038/s41558-022-01549-5. hdl:20.500.11850/594937. ISSN 1758-6798. S2CID 255624692.
  22. ^ a b UNEP (2018). The Adaptation Gap Report 2018. United Nations Environment Programme (UNEP), Nairobi, Kenya.
  23. ^ Hallegatte, Stephane; Rentschler, Jun; Rozenberg, Julie. 2019. Lifelines: The Resilient Infrastructure Opportunity. Sustainable Infrastructure;. Washington, DC: World Bank. hdl:10986/31805 License: CC BY 3.0 IGO.
  24. ^ "Climate Finance | UNFCCC". unfccc.int. Retrieved 2018-12-03.
  25. ^ Global, IndraStra. "Climate Finance: Essential Components, Existing Challenges, and On-going Initiatives". IndraStra Global. ISSN 2381-3652. Retrieved 2022-12-27.
  26. ^ "Climate Investment Opportunities in Cities - An IFC Analysis". www.ifc.org. Retrieved 2021-04-15.
  27. ^ "10 Years of Climate Action". Climate Investment Funds. 2019-05-31. Retrieved 2021-04-15.
  28. ^ United Nations Environment Programme (2023). Adaptation Gap Report 2023: Underfinanced.Underprepared. Inadequate investment and planning on climate adaptation leaves world exposed. Nairobi. doi:10.59117/20.500.11822/43796
  29. ^ "Multilateral development banks". EIB.org. Retrieved 2023-11-03.
  30. ^ a b Department for International Development (2011), Multilateral Aid Review: ensuring maximum value for money for UK aid through multilateral organisations
  31. ^ Charlene Watson, Liane Schalatek, and Aurélien Evéquoz "The global climate finance architecture." Overseas Development Institute (2023).
  32. ^ a b Atteridge, A., Siebert, C. K., Klein, R. J., Butler, C., & Tella, P. (2009). Bilateral finance institutions and climate change: A mapping of climate portfolios. Stockholm Environment Institute (SEI).
  33. ^ a b Coordination Challenges in Climate Finance. Erik Lundsgaarde, Kendra Dupuy, Åsa Persson, Danish Institute for International Studies. Copenhagen: DIIS. 2018. ISBN 978-87-7605-924-8. OCLC 1099681274.{{cite book}}: CS1 maint: others (link)
  34. ^ Gouldson A, Colenbrander S, Sudmant A, McAnulla F, Kerr N, Sakai P, Hall S, Papargyropoulou E, Kuylenstierna J (2015). "Exploring the economic case for climate action in cities". Global Environmental Change. 35: 93–105. Bibcode:2015GEC....35...93G. doi:10.1016/j.gloenvcha.2015.07.009. hdl:20.500.11820/57e8c64f-6f46-4488-b73e-2a6a9bf57821.
  35. ^ Schmidt, TS (2014). "Low-carbon investment risks and de-risking". Nature Climate Change. 4 (4): 237–239. Bibcode:2014NatCC...4..237S. doi:10.1038/nclimate2112.
  36. ^ Understanding 'bankability' and unlocking climate finance for climate compatible development, Climate & Development Knowledge Network, 31 July 2017
  37. ^ "The rich world claims it has paid its overdue climate debts". The Economist. ISSN 0013-0613. Retrieved 2023-12-14. Estimates of the amount of external finance that countries in the global south will need to adapt to climate change tend to be in the trillions of dollars. Stretched finance ministries in the global north suggest that they will use scarce aid money to "crowd in" private finance rather than provide everything themselves.
  38. ^ Colenbrander S, Lindfield M, Lufkin J, Quijano N (2018). "Financing Low-Carbon, Climate-Resilient Cities" (PDF). Coalition for Urban Transitions. Archived from the original (PDF) on 2018-04-12. Retrieved 2018-04-11.
  39. ^ Floater G, Dowling D, Chan D, Ulterino M, Braunstein J, McMinn T, Ahmad E (2017). "Global Review of Finance for Sustainable Urban Infrastructure". Coalition for Urban Transitions.
  40. ^ Bank, European Investment (2022-01-12). EIB Investment Report 2021/2022: Recovery as a springboard for change. European Investment Bank. ISBN 978-92-861-5155-2.
  41. ^ "Latest EIB survey: The state of EU business investment 2021". European Investment Bank. Retrieved 2022-01-31.
  42. ^ "European investment offensive needed to keep up with US subsidies". European Investment Bank. Retrieved 2023-02-28.
  43. ^ Bank, European Investment (2023-04-12). What drives firms' investment in climate change? Evidence from the 2022-2023 EIB Investment Survey. European Investment Bank. ISBN 978-92-861-5537-6.
  44. ^ "The Voluntary Carbon Market 2022–2023" (PDF). south pole. Retrieved April 6, 2023.
  45. ^ Picolotti, Romina; Zaelke, Durwood; Silverman-Roati, Korey; Ferris, Richard (2020). Debt-for-Climate Swaps (PDF) (Report). Institute for Governance and Sustainable Development. p. 3.
  46. ^ "Debt-for-Climate Swaps Can Help Developing Countries Make a Green Recovery". Sustainable Recovery 2020. November 13, 2020. Archived from the original on 2020-11-26. Retrieved 2020-12-01.
  47. ^ Goering, Laurie (2020-09-07). "Debt swaps could free funds to tame climate, biodiversity and virus threats". Reuters. Retrieved 2020-12-01.
  48. ^ "Explaining green bonds". 10 December 2014. Archived from the original on 2020-04-24. Retrieved 2020-04-14.
  49. ^ "Climate bonds Standard v2" (PDF). Archived (PDF) from the original on 2019-11-25. Retrieved 2020-04-14.
  50. ^ a b "Green Bond Principles". www.icmagroup.org. Archived from the original on 2020-05-30. Retrieved 2020-05-22.
  51. ^ "Green, Social and Sustainability Bonds". Archived from the original on 2020-04-21. Retrieved 2020-04-14.
  52. ^ Yunita, Abbie; Biermann, Frank; Kim, Rakhyun E; Vijge, Marjanneke J (2023). "Making development legible to capital: The promise and limits of 'innovative' debt financing for the Sustainable Development Goals in Indonesia". Environment and Planning E: Nature and Space. 6 (4): 2271–2294. doi:10.1177/25148486231159301. ISSN 2514-8486.
  53. ^ "Financing for Sustainable Development Report 2021" (PDF). UN.org.
  54. ^ "The Sustainable Development Agenda - United Nations Sustainable Development". www.un.org. Retrieved 2022-08-08.
  55. ^ "Transforming our world: the 2030 Agenda for Sustainable Development | Department of Economic and Social Affairs". sdgs.un.org. Retrieved 2022-08-08.
  56. ^ Hamrick, Kelley; Gallant, Melissa (May 2017). "Unlocking Potential: State of the Voluntary Carbon Markets 2017" (PDF). Forest Trends' Ecosystem Marketplace. p. 10. Archived (PDF) from the original on 2020-08-14. Retrieved 2019-01-29.
  57. ^ "Global Landscape of Climate Finance 2019". CPI.
  58. ^ "Mapped: Where multilateral climate funds spend their money". Carbon Brief. 2017.
  59. ^ "climate finance Short Changed" (PDF). OXFAM. Retrieved 24 October 2022.
  60. ^ Bos, Julie; Gonzalez, Lorena; Thwaites, Joe (7 October 2021). "Are Countries Providing Enough to the $100 Billion Climate Finance Goal?". Retrieved 24 October 2022.
  61. ^ "CIS Interview: Vice President Ambroise Fayolle, the European Investment Bank". CIS. 2020-10-27. Retrieved 2021-05-18.
  62. ^ "A plan for the long haul to contribute finance to the European Green Deal". European Investment Bank. Retrieved 2021-05-18.
  63. ^ Climate Action and Environmental Sustainability Overview 2023 (Report). 2023-02-02.
  64. ^ EIB Group Sustainability report 2022 (Report). European Investment Bank. 2023-06-29. ISBN 978-92-861-5543-7.
  65. ^ "Press corner". European Commission. Retrieved 2023-07-14.
  66. ^ Harvey, Fiona; Rankin, Jennifer (2020-03-09). "What is the European Green Deal and will it really cost €1tn?". The Guardian. ISSN 0261-3077. Retrieved 2020-08-19.
  67. ^ Holger, Dieter (2019-11-15). "European Investment Bank Will End Fossil Fuel Financing". Wall Street Journal. ISSN 0099-9660. Retrieved 2020-08-19.
  68. ^ "European Investment Bank to phase out fossil fuel financing". the Guardian. 2019-11-15. Retrieved 2020-08-19.
  69. ^ "EU/China/US climate survey shows public optimism about reversing climate change". European Investment Bank. Retrieved 2020-08-19.
  70. ^ "Climate action". EIB.org. Retrieved 2020-08-19.
  71. ^ Bank, European Investment (2023-08-17). Clean oceans and the blue economy Overview 2023. European Investment Bank. ISBN 978-92-861-5518-5.
  72. ^ "EU, WBIF extend €2.5 million grant to wastewater project in Kosovo". www.ebrd.com. Retrieved 2023-08-28.
  73. ^ "EU invests €70 million in largest wastewater treatment plant in North Macedonia". WBIF.org.
  74. ^ Bank, European Investment (2024-02-27). "Energy Overview 2024". {{cite journal}}: Cite journal requires |journal= (help)
  75. ^ Bank, European Investment (2024-02-27). "Energy Overview 2024". {{cite journal}}: Cite journal requires |journal= (help)
  76. ^ "Cohesion support after the pandemic". European Investment Bank. Retrieved 2021-11-15.
  77. ^ "THE STATE OF LOCAL INFRASTRUCTURE INVESTMENT IN EUROPE: EIB Municipality Survey 2020" (PDF). European Investment Bank. Archived (PDF) from the original on 2021-08-02.
  78. ^ "EIB Investment Report 2020-2021". EIB.org. Retrieved 2021-11-15.
  79. ^ a b Bank, European Investment (2021-08-02). The state of local infrastructure investment in Europe: EIB Municipalities Survey 2020. European Investment Bank. ISBN 978-92-861-4954-2.
  80. ^ "The territorial impact of COVID-19: Managing the crisis across levels of government". OECD. Retrieved 2022-05-30.
  81. ^ Bank, European Investment (2022-01-12). EIB Investment Report 2021/2022: Recovery as a springboard for change. European Investment Bank. ISBN 978-92-861-5155-2.
  82. ^ a b Bank, European Investment (2022-05-18). Business resilience in the pandemic and beyond: Adaptation, innovation, financing and climate action from Eastern Europe to Central Asia. European Investment Bank. ISBN 978-92-861-5086-9.
  83. ^ a b "Pathways to Sustainable Energy" (PDF).
  84. ^ OECD, 2016, OECD DAC Rio Markers for Climate Handbook
  85. ^ "Global Landscape of Climate Finance, A Decade of Data: 2011-2020" (PDF). CPI. Retrieved 3 November 2022.
  86. ^ a b "Biennial Assessment and Overview of Climate Finance Flows | UNFCCC". unfccc.int.
  87. ^ "Watson, C., Nakhooda, S., Caravani, A. and Schalatek, L. (2012) The practical challenges of monitoring climate finance: Insights from Climate Funds Update. Overseas Development Institute Briefing Paper" (PDF). Archived from the original (PDF) on 2014-01-01. Retrieved 2012-12-06.
  88. ^ Toetzke, Malte; Stünzi, Anna; Egli, Florian (October 2022). "Consistent and replicable estimation of bilateral climate finance". Nature Climate Change. 12 (10): 897–900. Bibcode:2022NatCC..12..897T. doi:10.1038/s41558-022-01482-7. S2CID 252477252.
  89. ^ Donner, Simon D; Kandlikar, Milind; Webber, Sophie (2016-05-01). "Measuring and tracking the flow of climate change adaptation aid to the developing world". Environmental Research Letters. 11 (5): 054006. Bibcode:2016ERL....11e4006D. doi:10.1088/1748-9326/11/5/054006. ISSN 1748-9326.
  90. ^ Michaelowa, Axel; Michaelowa, Katharina (2011-11-01). "Coding Error or Statistical Embellishment? The Political Economy of Reporting Climate Aid". World Development. Expanding Our Understanding of Aid with a New Generation in Development Finance Information. 39 (11): 2010–2020. doi:10.1016/j.worlddev.2011.07.020. ISSN 0305-750X.
  91. ^ "Assessing the credibility of how climate adaptation aid projects are categorised" (PDF). Development in Practice. Retrieved 2023-11-03.
  92. ^ a b "A pledge to fight climate change is sending money to strange places". Reuters. 2023-06-01. Retrieved 2023-11-03.
  93. ^ Egli, Florian; Stünzi, Anna (2019-11-01). "A dynamic climate finance allocation mechanism reflecting the Paris Agreement". Environmental Research Letters. 14 (11): 114024. Bibcode:2019ERL....14k4024E. doi:10.1088/1748-9326/ab443b. hdl:20.500.11850/384626. ISSN 1748-9326.
  94. ^ OECD (2015-07-07). Climate Change Risks and Adaptation: Linking Policy and Economics. OECD. doi:10.1787/9789264234611-en. ISBN 978-92-64-23460-4.
  95. ^ UNEP (2018). The Adaptation Gap Report 2018. United Nations Environment Programme (UNEP), Nairobi, Kenya.
  96. ^ UNEP (2021-01-09). "Adaptation Gap Report 2020". UNEP – UN Environment Programme. Retrieved 2022-10-26.
  97. ^ Chidambaram, Ravi; Khanna, Parag (1 August 2022). "It's Time to Invest in Climate Adaptation". Harvard Business Review. ISSN 0017-8012. Retrieved 7 September 2022.
  98. ^ Dolšak, Nives; Prakash, Aseem (17 October 2018). "The Politics of Climate Change Adaptation". Annual Review of Environment and Resources. 43 (1): 317–341. doi:10.1146/annurev-environ-102017-025739. ISSN 1543-5938.
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