Rethinking Virtual Currency Regulation in the Bitcoin Age
In: Washington Law Review, Band 90, Heft 271-347
7 Ergebnisse
Sortierung:
In: Washington Law Review, Band 90, Heft 271-347
SSRN
In: Journal of marine research, Band 57, Heft 3, S. 449-470
ISSN: 1543-9542
In: AADR - art architecture design research
"Employing neither the holistic worldview of mapping nor the isolated islands of architectural typology, MOS imagines a proposal where the city is everywhere ..."--
In: Marine policy, Band 131, S. 104589
ISSN: 0308-597X
Southern Ocean marine ecosystems are highly vulnerable to climate-driven change, the impacts of which must be factored into conservation and management. The Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) is aware of the urgent need to develop climate-responsive options within its ecosystem approach to management. However, limited capacity as well as political differences have meant that little progress has been made. Strengthening scientific information flow to inform CCAMLR's decision-making on climate change may help to remove some of these barriers. On this basis, this study encourages the utilisation of outputs from the United Nations' Intergovernmental Panel on Climate Change (IPCC). The IPCC's 2019 Special Report on the Ocean and Cryosphere in a Changing Climate (SROCC) constitutes the most rigorous and up-to-date assessment of how oceans and the cryosphere are changing, how they are projected to change, and the consequences of those changes, together with a range of response options. To assist CCAMLR to focus on what is most useful from this extensive global report, SROCC findings that have specific relevance to the management of Southern Ocean ecosystems are extracted and summarised here. These findings are translated into recommendations to CCAMLR, emphasising the need to reduce and manage the risks that climate change presents to harvested species and the wider ecosystem of which they are part. Improved linkages between IPCC, CCAMLR and other relevant bodies may help overcome existing impediments to progress, enabling climate change to become fully integrated into CCAMLR's policy and decision-making.
BASE
• The Arctic has warmed by around 2°C since 1850, approximately double the global average. Even if the Paris Agreement successfully limits global warming to a further 0.5°C, the Arctic is expected to warm by at least another 1°C. • The United Kingdom's (UK) weather is linked to conditions in the European Arctic. For example, high atmospheric pressure in the Nordic Seas divert damaging storms across the UK and mainland Europe, with the potential to cause societal disruption from flooding. • It is possible, although presently unconfirmed, that alterations in Arctic conditions provoked the 'Beast from the East' winter storm in 2018. • Scientists need to take observations and improve their understanding of climatic processes in the Nordic Seas and the Arctic Ocean to fill gaps in knowledge about the links between the Arctic climate and the UK's weather; a risk identified by the Intergovernmental Panel on Climate Change (IPCC). • The UK has significant research expertise and experience to understand how global warming will change the Arctic's environment and affect the UK. • This strength, allied with the capabilities of the UK's new polar research ship the RRS Sir David Attenborough, warrants an integrated programme of research, including advanced numerical modelling, to improve predictions of future extreme weather events. • Such a programme must acknowledge that the Arctic is politically an increasingly congested and contested space. It should be designed in collaboration with key Arctic and near-Arctic nations to increase the UK's influence and ability
BASE