Climate Policies at Work World-Wide to Boost Resilience


The report, “Climate Action Now – A Summary for Policymakers 2015” has been released by the secretariat of the UN Framework Convention on Climate Change (UNFCCC) at the request of governments.

The report underlines the critical connection between reducing emissions fast enough in order to avoid the worst climate change impacts and therefore reduce the scale of future adaptation required but also to enable many immediate adaptation co-benefits.

Energy efficiency, for example, can improve the ability of communities to adapt to climate change by reducing the peak demand they put on power systems during high temperatures or unexpected weather while improving the comfort level of buildings in uncertain weather.

“This report underlines that many of the specific and cooperative actions needed to reduce emissions also have multiple co-benefits including in the area of adaptation and building more resilient countries and communities,” said Ms Figueres.

“These include improved agricultural practices, efficient land-use management, forest management food security, environmental sustainability, and socio-economic development,” she added.

The report is full of good practice climate policies across six thematic areas: renewable energy, energy efficiency, transport, land use, carbon capture, use and storage and controlling non-CO2 greenhouse gases.

Immediate action by all nations has the potential to reduce emissions by 2020 by between 10 Gigatons and 19 Gigatons of carbon dioxide equivalent.

Renewable Energy
Excluding hydropower, renewables accounted for just over nine per cent of global electricity generation in 2014, up from 1.8 per cent in 2004. This momentum has led to approximately 58 per cent of net additions to global power capacity in 2014 coming from renewables, which is more than from coal and gas combined.

The Republic of Korea smart grid initiative – “Smart grids” that use digital technology to manage flows of power more efficiently are vital for integrating a large volume of distributed, intermittent, low-carbon generation while improving energy efficiency

African Group Renewable Energy Partnership – to establish a global partnership to accelerate energy transformation in Africa to wider use of renewables via the deployment of, for example, feed-in tariffs and other incentives. By 2020 the partnership could enable the installation of at least 10 GW of renewable energy capacity in Africa

Energy Efficiency
Scaling up investment in energy efficiency could generate a net increase in global economic output of $18 trillion by 2035, says the International Energy Agency (IEA).

Denmark – The National Energy Efficiency Obligation Scheme offers cost-neutrality for participants by allowing them to pass costs on to end users and flexibility to trade credits received

UN–World Bank Sustainable Energy for All – its Global Energy Efficiency Accelerator Platform could double the rate of energy efficiency improvement by 2030 by driving action and commitments by national and subnational leaders at all levels, using integrated policy and investment road maps to guide project implementation

Transport
The UN Environment Programme (UNEP) estimates reductions of emissions from land transport, aviation and shipping of 1.7–2.5 Gt CO2 equivalent – from one quarter to more than one third of current emissions from the sector – are possible by 2020.

Mexico – Mexico City has consistently expanded its bus rapid transport system since 2005. One tenth of its users have shifted from private cars

The SLoCaT Partnership on Sustainable Transport – brings together over 90 organizations working on freight and passenger land transport to mobilize global support to promote sustainable low-carbon transport in developing countries and maximize the role of transport in poverty eradication and sustainable development.

Carbon Capture, Use and Storage
Globally, there are 12 operational carbon dioxide capture and storage (CCS) projects, with a further 10 under construction. The IEA estimates that if sufficient support is provided and financing is secured, CCS projects could capture 50 Mt CO2/year by 2020.

Within the power sector, it is estimated the emission reduction potential for CCS is 0.2–0.4 Gt CO2 equivalent in 2020.

Norway – A carbon tax, established in 1991, has increased over time, creating an incentive to store CO2 and resulting in sequestration of 0.9 Mt of CO2 each year.

Carbon Sequestration Leadership Forum – a ministerial-level initiative to facilitate development and deployment of cost-effective CCS technologies. Membership is open to national government entities that are significant producers or users of fossil fuels and committed to investing in CCS research, development and demonstration.

Non-CO2 Greenhouse Gases
The US Environmental Protection Agency estimates 2.7 Gt CO2 equivalent of global non-CO2 GHG emissions could be mitigated by 2020 at a cost below $50/t CO2 equivalent.

Almost one-quarter of these reductions could be made at or below a breakeven cost with a substantial portion generating an immediate financial return.

European Union – The EU Emissions Trading System helped reduce N2O emissions from nitric acid plants. N2O emissions in 2013 were 85 per cent lower than in 1990.

Montreal Protocol on Substances that Deplete the Ozone Layer- an international treaty to phase out the production of numerous substances responsible for ozone depletion. Over 98 per cent of consumption of all ozone-depleting substances has now been phased out since its entry into force in 1989.

Meeting in Dubai in early November this year, nations agreed on a pathway to control the growth of hydroflurocarbons (HFCs) – chemicals that are harmless to the ozone layer but which have significant climate impacts.

Land Use
The UN estimates that at marginal costs of less than $50–100 per tonne of CO2 equivalent, the direct emission reduction potential of agriculture lies in the range of 1.1–4.3 Gt CO2 equivalent and of forestry in the range of 1.3–4.2 Gt CO2 equivalent in 2020, or as much as two thirds of current emissions from these sectors.

China – In order to increase net forest area by 40 million hectares by the end of 2020 compared with 2005, China is combining afforestation, forest protection and sustainable forest management policies and practices and is also integrating forest carbon into its national carbon emissions trading system pilot programme.

The Tropical Forest Alliance 2020 – a public-private partnership to create zero deforestation supply chain models in South-East Asia, Central and West Africa and regions of South America.

It engages with governments, civil society groups active in both producer and consumer nations, smallholder farmers and indigenous representatives and multinational corporations.


More General News »


Comments:
This article has 0 comment, leave your comment.

You must be logged in to post a comment Login