Climate Change

Climate change is a reality and is largely driven by human activity. The rate of change is faster than might be expected if there was no human activity. The human derived drivers of climate change include burning fossil fuels, making cement and radically changing habitats (cutting down forests, draining peatlands etc). To get more on the science of climate change have a look at the UK Climate Impacts Programme website or the Met Office website.

Biodiversity and Climate Change

Direct Effects

The impacts of climate change on biodiversity include changes in species distribution and range, changes in the timing of seasonal events and changes to habitat character. Impacts on the landscape include sea level rise, flood events and soil erosion.

The raised levels of CO2 in the atmosphere are also affecting the oceans causing acidification of the water which impacts marine life and affect ocean currents.

Indirect Effects

The direct effects of measures put in place to address climate change are also likely to have an impact on the natural environment. For example, growing new crops, increases in summer watering and geographical shifts in arable and livestock production could well occur, but how these indirect changes may affect biodiversity remains less certain.

Beneficial effects

Biodiversity has an important role in climate change adaptation and mitigation. For example, soils, forests and oceans hold vast stores of carbon. The way managed habitats are used will affect how much of that carbon is released in gaseous form into the atmosphere. How we address climate change and maintain healthy ecosystems so they provide ecosystem goods and services essential for human well-being is now a key challenge for society. Understanding the on-going impacts of climate change on ecosystems is an essential prerequisite to addressing this challenge.

A little bit of climate science

The science is unequivocal, most of the observed increase in global average temperatures since the mid-20th century is very likely due to the observed increase in anthropogenic greenhouse gas concentrations (IPCC (2007).

Climate is a complex science – many factors interact to determine climate (and day to day weather).

The observed changes in climate are happening relatively quickly i.e. decade to decade rather than over millennia.

The underlying trends in observed changes are not all linear: the changes observed usually go from less to more rapid rates of change.

Several drivers of change have been identified and anthropogenic drivers are major contributors.

‘Greenhouse gas’ production is the primary anthropogenic driver – chief among these is carbon dioxide.

Most greenhouse gas production comes from industrial processes, some also comes from agriculture and from changes in the way land and water are managed (removing trees, draining wetlands etc).

There are time lags in the system – the climate we are experiencing now has been influenced by anthropogenic inputs from roughly the middle of the 20th century; inputs since then will influence climate for years to come.

Projections about how climate is likely to change are based on models built using two strands of evidence: observed changes to date and the causal links between drivers and observed change.

To get detailed background on the science of climate, observed and projected climate change and the potential mechanisms available to reduce human impact on climate look at the literature produced by the IPCC and, for the UK, UKCIP and MCCIP

The legislative & policy framework

Global

The United Nations Framework Convention on Climate Change (UNFCCC) is one of the three major environmental agreements signed at Rio in 1992 and came into force in 1994. Its objective is the “stabilisation of greenhouse gas concentrations in the atmosphere at a level that would prevent dangerous anthropogenic interference in the climate system”. The Convention set a non-binding goal for contracting parties to stabilise their greenhouse gas emissions to 1990 levels by the year 2000.

Parties were required to undertake necessary measures, including the submission of national inventories of greenhouse-gas emissions and removals, adoption of national programmes for mitigating climate change and developing strategies for adapting to its impacts, and promotion of technology transfer and the sustainable management, conservation, and enhancement of greenhouse gas sinks and 'reservoirs' (such as forests and oceans).

The Kyoto Protocol was adopted in 1997 to strengthen the obligations of the Convention. Under the Protocol, industrialized countries have a legally binding commitment to reduce their collective greenhouses gas emissions by at least 5% compared to 1990 levels by the period 2008-2012. The UK ratified the Climate Change Convention in 1993 and the Kyoto Protocol in 2002. It came into force in 2005 (when sufficient states had ratified the agreement).

In November 2000, the UK Government published a national climate change programme to address climate change issues and provided details of how the UK planed to deliver its targets under the Kyoto Protocol. The programme was reviewed in 2004 and replaced by the UK Climate Change Programme in 2006.

Europe

The Climate Action and Renewable Energy Package

On 23 January 2008 the European Commission put forward a package of proposals that aim to deliver the European Union's commitments to fight climate change and promote renewable energy up to 2020 and beyond.

The EU is committed to:

reducing its overall emissions to at least 20% below 1990 levels by 2020, and
increasing the share of renewables in energy use to 20% by 2020.

The Directive also puts forward suggested sustainability criteria

Biodiversity and Climate Change

One of the 10 objectives of the EU Biodiversity Action Plan is to support biodiversity adaptation to climate change.

In 2009 the European Commission produced a “White Paper on Adapting to Climate Change: Towards an EU framework for action”. The White Paper aims to strengthen the EU’s resilience to cope with the impacts of a changing climate by complimenting and supporting actions taken by Member States. It requires Member States to act together, particularly when dealing with shared EU policies such as fisheries, agriculture, energy, water and biodiversity.

The European Commission, with support from others, has commissioned a study to evaluate the costs of the loss of biodiversity and the associated decline in ecosystem services worldwide, and compare them with the costs of effective conservation and sustainable use. The study: The Economics of Ecosystems and Biodiversity (TEEB) has produced a report TEEB Climate Issues Update and its final results will be presented at CBD COP-10 in 2010.

Some of our work

In May 2009 JNCC organised a one day conference to take a thematic view across major multi-lateral environmental agreements (MEAs). Climate change was one of the five themes investigated. The conference papers are available here.

JNCC works closely with colleagues in the country conservation agencies to deliver work on climate change. An Inter-agency Climate Change Forum (IACCF), established in 2006, provides the formal mechanism for such collaboration. A number of documents have been produced, the most recent being Biodiversity and Climate Change – a summary of impacts in the UK.

With funding from the Overseas Territories Environment Programme (OTEP) we have produced a series of publications providing background information about climate change and its impacts in the Overseas Territories and Crown Dependences.