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Challenges of a Changing Earth : Proceedings of the Global Change Open Science Conference, Amsterdam, the Netherlands, 10-13 July 2001. (2002)

Steffen, Will.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Global environmental change--Congresses. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (220 pages)

Edition: 1st ed.

ISBN: 9783642190162

Series Statement: Global Change - the IGBP Series

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=3089071

DDC: 363.738/74

Language: English

Note: Global Change - The IGBP Series -- Challenges of a Changing Earth -- Copyright -- Preface -- Contents -- Contributors -- Part I Opening -- Chapter 1 Opening Address -- Chapter 2 Challenges of a Changing Earth -- Part II Achievements and Challenges -- Part IIa Food, Land, Water, and Oceans -- Chapter 3 Toward Integrated Land-Change Science: Advances in 1.5 Decades of Sustained International Research on Land-Use and Land-Cover Change -- Chapter 4 Climate Variability and Ocean Ecosystem Dynamics: Implications for Sustainability -- Chapter 5 Food in the 21st Century: Global Climate of Disparities -- Chapter 6 Equity Dimensions of Dam-Based Water Resources Development: Winners and Losers -- Part IIb Out of Breath: Air Quality in the 21st Century -- Chapter 7 Atmospheric Chemistry in the "Anthropocene -- Chapter 8 Fires, Haze and Acid Rain: The Social and Political Framework of Air Pollution in ASEAN and Asia -- Part IIc Managing Planetary Metabolism? The Global Carbon Cycle -- Chapter 9 Carbon and the Science-Policy Nexus: The Kyoto Challenge -- Chapter 10 Industry Response to the CO2 Challenge -- Part IId Summary: Global Change and the Challenge for the Future -- Chapter 11 Global Change and the Challenge for the Future -- Part III Advances in Understanding -- Part IIIa Global Biogeochemistry: Understanding the Metabolic System of the Planet -- Chapter 12 Ocean Biogeochemistry: A Sea of Change -- Chapter 13 The Past, Present and Future of Carbon on Land -- Chapter 14 Can New Institutions Solve Atmospheric Problems? Confronting Acid Rain, Ozone Depletion and Climate Change -- Part IIIb Land-Ocean Interactions: Regional-Global Linkages -- Chapter 15 Emissions from the Oceans to the Atmosphere, Deposition from the Atmosphere to the Oceans and the Interactions Between Them -- Chapter 16 The Impact of Dams on Fisheries: Case of the Three Gorges Dam. , Chapter 17 Global Change in the Coastal Zone: The Case of Southeast Asia -- Part IIIc The Climate System: Prediction, Change and Variability -- Chapter 18 Climate Change Fore and Aft: Where on Earth Are We Going? -- Chapter 19 Climate Change - Past, Present and Future: A Personal Perspective -- Chapter 20 The Changing Cryosphere: Impacts of Global Warming in the High Latitudes -- Chapter 21 The Coupled Climate System: Variability and Predictability -- Part IIId Hot Spots of Land-Use Change and the Climate System: A Regional or Global Concern? -- Chapter 22 Hot Spots of Land-Use Change and the Climate System: A Regional or Global Concern? -- Chapter 23 Africa: Greening of the Sahara -- Chapter 24 The Role of Large-Scale Vegetation and Land Use in the Water Cycle and Climate in Monsoon Asia -- Chapter 25 Can Human-Induced Land-Cover Change Modify the Monsoon System? -- Chapter 26 The Amazon Basin and Land-Cover Change: A Future in the Balance? -- Part IV Looking to the Future -- Part IVa Simulating and Observing the Earth System -- Chapter 27 Virtual Realities of the Past, Present and Future -- Chapter 28 Coping with Earth System Complexity and Irregularity -- Chapter 29 Simulating and Observing the Earth System: Summary -- Part IVb Does the Earth System Need Biodiversity? -- Chapter 30 Marine Biodiversity: Why We Need It in Earth System Science -- Chapter 31 Does Biodiversity Matter to Terrestrial Ecosystem Processes and Services? -- Chapter 32 Biodiversity Loss and the Maintenance of Our Life-Support System -- Part IVc Can Technology Spare the Planet? -- Chapter 33 Maglevs and the Vision of St. Hubert - Or the Great Restoration of Nature: Why and How -- Chapter 34 Industrial Transformation: Exploring System Change in Production and Consumption -- Chapter 35 Will Technology Spare the Planet? -- Part IVd Towards Global Sustainability. , Chapter 36 Challenges and Road Blocks for Local and Global Sustainability -- Chapter 37 Research Systems for a Transition Toward Sustainability -- Chapter 38 Summary: Towards Global Sustainability -- Part IVe Closing Session -- Chapter 39 Closing Address -- Chapter 40 The Amsterdam Declaration on Global Change -- Index.

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Working Group on Fisheries Benthic Impact and Trade-Offs (WGFBIT; outputs from 2021 meeting). (2022)

Pierucci, Andrea ; Nguyen Xuan, Alessandra ; Kraan, Casper ; [et al.]

International Council for the Exploration of the Sea | Copenhagen, Denmark

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Publication Date: 2022-03-10

Description: FBIT

Description: Published

Description: Non Refereed

Keywords: Fishery ; Fishing pressure ; Fisheries Benthic Impact ; Trade-offs ; AIS data ; VMS data ; Longevity ; Fishing gear technology ; Spatial modelling

Repository Name: AquaDocs

Type: Report

Format: 133pp.

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Marine radioecology after the Fukushima Dai-ichi nuclear accident : are we better positioned to understand the impact of radionuclides in marine ecosystems? (2017)

Vives i Batlle, Jordi ; Aoyama, Michio ; Bradshaw, Clare ; [et al.]

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Publication Date: 2022-05-26

Description: © The Author(s), 2017. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Science of The Total Environment 618 (2017): 80-92, doi:10.1016/j.scitotenv.2017.11.005.

Description: This paper focuses on how a community of researchers under the COMET (CO-ordination and iMplementation of a pan European projecT for radioecology) project has improved the capacity of marine radioecology to understand at the process level the behaviour of radionuclides in the marine environment, uptake by organisms and the resulting doses after the Fukushima Dai-ichi nuclear accident occurred in 2011. We present new radioecological understanding of the processes involved, such as the interaction of waterborne radionuclides with suspended particles and sediments or the biological uptake and turnover of radionuclides, which have been better quantified and mathematically described. We demonstrate that biokinetic models can better represent radionuclide transfer to biota in non-equilibrium situations, bringing more realism to predictions, especially when combining physical, chemical and biological interactions that occur in such an open and dynamic environment as the ocean. As a result, we are readier now than we were before the FDNPP accident in terms of having models that can be applied to dynamic situations. The paper concludes with our vision for marine radioecology as a fundamental research discipline and we present a strategy for our discipline at the European and international levels. The lessons learned are presented along with their possible applicability to assess/reduce the environmental consequences of future accidents to the marine environment and guidance for future research, as well as to assure sustainability of marine radioecology in Europe and globally. This guidance necessarily reflects on why and where further research funding is needed, signalling the way for future investigations.

Description: The research leading to this paper has received funding from the European Union's seventh Framework programme (FP7/2007-2013) under grant agreement No. is 604974 (Projects within COMET: Marine Initial Research Activity and The impact of recent releases from the Fukushima nucleaR Accident on the Marine Environment - FRAME). Sampling off Japan has been supported by the Gordon and Betty Moore Foundation, the Deerbrook Charitable Trust and contributions to the WHOI Centre for Marine and Environmental Radioactivity. We acknowledge the JSPS KAKENHI Grant-in-Aid for Scientific Research on Innovative Areas Grant No. 24110005 for supporting in part the activities during the research cruises to the FDNPP area.

Repository Name: Woods Hole Open Access Server

Type: Preprint

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ICES (2023): Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT). (2023)

Pierucci, Andrea ; Nguyen Xuan, Alessandra ; Di Lorenzo, Bianca ; [et al.]

International Council for the Exploration of the Sea (ICES) | Copenhagen, Denmark

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Publication Date: 2023-02-28

Description: The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con- sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments (ToR A) are shown out for several sub- regions in (French Mediterranean, Celtic Seas). For other regions, updates of the whole assess- ment or specific steps only were presented. To further standardise the different components of the WGFBIT approach across all (sub-)re- gional assessments, a more detail overview of those components was compiled. These compo- nents were slightly different among those regions, related to variation in data availability, envi- ronmental characteristics and implementation possibilities among the (sub-)regions. In WGFBIT, assessments are sometimes based on trawl or grab data, which are sampling differ- ent components of the seafloor ecosystem and can have consequences on the created sensitivity layer. Therefore, there is looked in more detail how the sensitivity outcome (and layers) can dif- fer due to the use of benthic data gathered with different gears (grab/core, trawl or video). The preliminary comparability analyses are performed on different levels: (1) based on co-located sampling; (2) comparing sensitivity maps of the (sub-) area, based on different gears. There were differences observed in longevity distribution at locations sampled with different gears and dif- ferences in data and models lead also to differences in the sensitivity layers. The WGFBIT seafloor assessment framework is not the only way to assess benthic impacts from physical disturbance. A discussion session was held on how the future workflow on advice that ICES WGFBIT assessment contribute to, will be organized. Marine sediments harbour significant levels of biodiversity that play a key role in ecosystem functions and services such as biogeochemical cycling, carbon storage and the regulation of cli- mate. Through the removal of fauna, changes in physico-chemical nature and resuspension of sediment, bottom trawling may result in significant changes in the ecosystem functioning of shelf seas. An assumption of the current PD model is that high community biomass implies higher ecosystem functioning. However, total community biomass does not necessarily reflect changes in species and functional trait composition which play a key role in regulating ecosystem func- tions. ToR D is working on an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions to improve our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. Links between species traits and biogeochemical parameters and the impact of trawling on these links are being explored using multivariate ordination analyses using different fauna and bioge- ochemical datasets collected in the North Sea, Celtic Sea, Kattegat, Baltic Sea and the eastern Mediterranean. Changes due to trawling in the trajectories of species densities over time and the concurrent changes in the bioturbation and bioirrigation potential of communities are being modelled using a combination of data-driven mechanistic model and a biogeochemical model. We report on the different data analysis methods that ToR D members have developed over the last year.

Description: ICES

Description: Published

Description: Refereed

Keywords: WGFBIT ; Fishery Benthic Impact ; Benthic Impact ; Human impact ; Fishery management ; Benthos ; Seabed ecoystem

Repository Name: AquaDocs

Type: Report

Format: 112pp.

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