A country cannot mitigate or adapt to climate change without first strengthening skills and the knowledge to do so. The CTCN works with network members and local stakeholders to provide information, training and support to build and/or strengthen the capacity of developing countries to identify, maintain and adapt climate technology solutions. Capacity building and training can enable decision-makers to initiate change on local and national level. As part of this effort, the CTCN strives to develop analytical tools, policies and best practices for country-driven climate mitigation and adaptation. Below you will find related publications, partners, CTCN technical assistance, technologies and other information for exploring this topic further.
Capacity building and training
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Date of submissionPhaseDesignCountriesObjectiveSectorsCross-sectoral enabler
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Date of submissionCountriesObjectiveSectorsCross-sectoral enabler
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Date of submissionPhaseDesignCountriesObjectiveSectorsCross-sectoral enabler
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Date of submissionPhaseDesignCountriesObjectiveSectorsCross-sectoral enablerApproach
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Coral reefs are central to the economy and livelihoods of Palau while providing risk reduction benefits. However, climate change is posing a serious threat to the survival of corals. Rise in sea surface temperature and ocean acidification as a result of climate change is causing more frequent and severe coral bleaching events. Future projections also indicate that widespread coral bleaching will occur annually in Palau’s coral reefs by 2040.
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Date of submissionPhaseImplementationCountriesObjectiveSectorsCross-sectoral enabler
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Date of submissionPhaseCompletedCountriesObjectiveSectorsCross-sectoral enabler
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The geographical location of Honduras between the Pacific and Atlantic Oceans exposes it to numerous and diverse natural hazards and extreme weather events. The impacts of climate change vary across the country: in the Caribbean, cyclones are more common, while in the center and south drought is more prevalent, along with the recurrent effects of the El Niño and La Niña phenomenon. Due to the topography, landslides are also quite common.
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Date of submissionPhaseImplementationCountriesObjectiveSectorsCross-sectoral enablerApproach
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Georgia is exposed to hydrometeorological hazards and natural disasters. Frequent natural disasters include landslides, floods, flash-flooding, mudflows, droughts, avalanches, heavy winds and storms. In recent years, the number of natural disasters has increased nearly three times and, in many cases, have been considered as catastrophic, causing fatalities and leading to significant economic losses.
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Date of submissionPhaseDesignCountriesObjectiveCross-sectoral enabler
This Technology Transfer Advances Kenya's
- Nationally Determined Contribution to expand in clean energy options such as geothermal, and to abate its GHG emissions by 30% by 2030 relative to the BAU scenario of 143 MtCO2eq and in line with its sustainable development agenda.
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Date of submissionPhaseDesignCountriesObjectiveSectorsCross-sectoral enabler
This Technology Transfer Advances Tanzania's
- Nationally Determined Contribution to enhance the use of renewable energy potential, including geothermal, and reduce greenhouse gas emissions economy wide between 10-20% by 2030 relative to the BAU scenario of 138 - 153 Million tones of carbon dioxide equivalent (MtCO2e).
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Date of submissionPhaseCompletedCountriesObjectiveSectorsCross-sectoral enablerApproach
This Technology Transfer Advances Vietnam's
- Nationally Determined Contribution to reduce GHG emissions by 8% compared to BAU, and to develop national GHG inventory system and establish systems for measuring, reporting and verification at the national and sectoral levels in order to monitor and supervise GHG emissions activities. The government also proposed to enhance cooperation in scientific research, information exchange on the formulation and implementation of policies.
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