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| Registros recuperados: 19 | |
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| Thrush, Simon F; Institute of Marine Science, The University of Auckland; School of Environment, The University of Auckland; simon.thrush@auckland.ac.nz; Lewis, Nick; School of Environment, The University of Auckland; n.lewis@auckland.ac.nz; Le Heron, Richard; School of Environment, The University of Auckland; r.leheron@auckland.ac.nz; Fisher, Karen T; School of Environment, The University of Auckland; k.fisher@auckland.ac.nz; Lundquist, Carolyn J; Institute of Marine Science, The University of Auckland; National Institute of Water and Atmospheric Research, Hamilton, New Zealand; carolyn.lundquist@niwa.co.nz; Hewitt, Judi; National Institute of Water and Atmospheric Research, Hamilton, New Zealand; Judi.Hewitt@niwa.co.nz. |
| On an increasingly populated planet, with decreasing biodiversity and limited new opportunities to tap unexploited natural resources, there is a clear need to adjust aspects of marine management and governance. Although sectarian management has succeeded in addressing and managing some important threats to marine ecosystems, unintended consequences are often associated with overlooking nonlinear interactions and cumulative impacts that increase the risk of surprises in social-ecological systems. In this paper, we begin to untangle science-governance-society (SGS) interdependencies in marine systems by considering how to recognize the risk of surprise in social and ecological dynamics. Equally important is drawing attention to our state of preparedness,... |
| Tipo: Peer-Reviewed Insight |
Palavras-chave: Governance; Management; Marine ecosystems; Regime shift; Resilience; Science; Society. |
| Ano: 2016 |
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| O'Higgins, Tim; Scottish Association for Marine Science (SAMS), Scottish Marine Institute, Scotland; Tim.O'Higgins@sams.ac.uk; Cormier, Roland; Gulf Fisheries Centre, Fisheries and Oceans Canada; Roland.Cormier@dfo-mpo.gc.ca; Diedrich, Amy; School of Earth and Environmental Sciences, James Cook University, Australia; amy.diedrich@jcu.edu.au. |
| New coastal and marine management strategies have recently been developed in many countries and regions. From an ecosystem approach perspective, the aim of such strategies is the maintenance of ecosystem integrity while enabling the sustainable use of ecosystem goods and services. There is, however, a need for harmonized definitions and standardized processes to deal not only with the interjurisdictional and multidisciplinary complexities that are associated with such strategies but also with the extensive timelines and resources implicated in the planning and implementation of these strategies. The ecosystem-based management system proposed here is based on three pillars that facilitate the integration of an ecosystem approach to coastal and oceans policy... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Ecosystem approach; Ecosystem-based management; Ecosystem goods and services; Environmental management; Marine environment; Marine ecosystems; Marine management strategy; Oceans policy. |
| Ano: 2014 |
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| Díaz,Juan M; Acero,Arturo. |
| Colombia is recognized as a megadiverse country on the basis of the number of terrestrial animal and plant species occurring within its boundaries. However, due to the circumstance that it possesses coasts on both the Caribbean Sea and the Pacific Ocean, each of them exhibiting distinct geological, oceanographic, and climatic features, Colombia is perhaps the country with the highest marine biological diversity in South America and one of the most biodiverse in the New World. Although scientific research concerning marine biodiversity of Colombia has a very short history, considerable knowledge has been achieved in the last 10 years, particularly in regard to species inventories and ecosystem characterizations, including thematic mapping. Relatively... |
| Tipo: Journal article |
Palavras-chave: Marine biodiversity; Colombia; Caribbean; Eastern Pacific; Marine ecosystems. |
| Ano: 2003 |
URL: http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-65382003000200011 |
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| Шульман, Г. Е.; Токарев, Ю. Н.. |
| На материалах проводимых в ИнБЮМ НАН Украины исследований рассмотрены многочисленные аспекты функционального биоразноообразия морской биоты – видовое, внутривидовое (популяционное), внутрипопуляционное (организменное), суборганизменное (тканевое, отчасти клеточное и молекулярное), а также его пространственные и временные аспекты. Показано, что направления эволюционного развития, определяющие биологический прогресс, обеспечиваются альтернативными метаболическими стратегиями, формирующими сложную гамму видового разнообразия. Проанализированы различные проявления функционального биоразноообразия, позволяющие понять: как сформировалась видовая, популяционная и внутрипопуляционная структура биоты, как осуществляется взаимодействие друг с другом компонентов... |
| Tipo: Journal Contribution |
Palavras-chave: Морские экосистемы; Биоразнообразие; Метаболические стратегии; Биолюминесценция; Marine ecosystems; Biodiversity; Metabolic strategy; Bioluminescence Bioluminescence Biodiversity Ecosystems Ecosystems Biodiversity http://aims.fao.org/aos/agrovoc/c_2482 http://aims.fao.org/aos/agrovoc/c_33949. |
| Ano: 2006 |
URL: http://repository.ibss.org.ua/dspace/handle/99011/265 |
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| Levrel, Harold; Jacob, Celine; Bailly, Denis; Charles, Mahe; Guyader, Olivier; Aoubid, Scheherazade; Bas, Adeline; Cujus, Alexia; Fresard, Marjolaine; Girard, Sophie; Hay, Julien; Laurans, Yann; Paillet, Jerome; Agundez, Jose A. Perez; Mongruel, Remi. |
| There are two ways of assessing the costs of environmental degradation: as the costs associated with the loss of benefits resulting from the degradation of natural capital, and as the maintenance costs required to compensate for the actual or potential degradation of natural capital. The first of these methods is based on the Total Economic Value (TEV) of benefits forgone because of the depletion of ecosystem services delivered by marine biodiversity. The second method is based on the costs required to maintain a good state of marine biodiversity, one which makes it possible to deliver ecosystem services. This paper gives an illustration of this second approach. It details how these maintenance costs have been calculated in the initial assessment of the... |
| Tipo: Text |
Palavras-chave: Maintenance cost; Marine ecosystems; Marine Strategy Framework Directive; Economic analysis. |
| Ano: 2014 |
URL: http://archimer.ifremer.fr/doc/00188/29967/29457.pdf |
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| Valls, Audrey; Coll, Marta; Christensen, Villy. |
| Various definitions and indices have been proposed in the literature to identify keystone species. In this study, we intended to make the concept of keystone species operational for marine biodiversity conservation. We used an exclusive definition of keystone species, based on the original concept of keystone predator, and derived a new functional index of keystoneness (KS) from an ecosystem-modeling approach. First, several KS indices were formulated, by combining measures of the mixed-trophic impact (MTI) and biomass of species. Then, a meta-analysis was performed, based on 101 published Ecopath food-web models, selected with a scoring method, and representative of the variety of marine ecosystems worldwide. The indices were applied to the models, and... |
| Tipo: Text |
Palavras-chave: Classification tree; Ecopath model; Food-web structure; Index of keystoneness; Keystone species; Marine ecosystems; Meta-analysis; Mixed-trophic impact; Rank correlation tests; Scoring method. |
| Ano: 2015 |
URL: https://archimer.ifremer.fr/doc/00627/73869/73736.pdf |
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| Coll, M.; Shannon, L. J.; Kleisner, K. M.; Juan-jorda, M. J.; Bundy, A.; Akoglu, A. G.; Banaru, Daniela; Boldt, J. L.; Borges, M. F.; Cook, A.; Diallo, I.; Fu, C.; Fox, C.; Gascuel, D.; Gurney, L. J.; Hattab, T.; Heymans, J. J.; Jouffre, D.; Knight, B. R.; Kucukavsar, S.; Large, S. I.; Lynam, C.; Machias, A.; Marshall, K. N.; Masski, H.; Ojaveer, H.; Piroddi, C.; Tam, J.; Thiao, D.; Thiaw, M.; Torres, M. A.; Travers-trolet, Morgane; Tsagarakis, K.; Tuck, I.; Van Der Meeren, G. I.; Yemane, D.; Zador, S. G.; Shin, Y. -j.. |
| IndiSeas (“Indicators for the Seas”) is a collaborative international working group that was established in 2005 to evaluate the status of exploited marine ecosystems using a suite of indicators in a comparative framework. An initial shortlist of seven ecological indicators was selected to quantify the effects of fishing on the broader ecosystem using several criteria (i.e., ecological meaning, sensitivity to fishing, data availability, management objectives and public awareness). The suite comprised: (i) the inverse coefficient of variation of total biomass of surveyed species, (ii) mean fish length in the surveyed community, (iii) mean maximum life span of surveyed fish species, (iv) proportion of predatory fish in the surveyed community, (v) proportion... |
| Tipo: Text |
Palavras-chave: Ecological indicators; Marine ecosystems; Biodiversity; Redundancy; Trends; States; Fishing impacts; Conservation. |
| Ano: 2016 |
URL: http://archimer.ifremer.fr/doc/00281/39201/37902.pdf |
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| Jacob, Celine; Thorin, Sebastien; Pioch, Sylvain. |
| Most research studies related to biodiversity offsetting have focused on governance systems already in place in the terrestrial realm – these studies tend to rely on an approach of organizational economics, in particular in relation to mitigation banking schemes. In this study, emerging marine offsetting governance systems has been analyzed using the Actor–Network Theory (ANT) with the aim of highlighting the key elements that enable the emergence of marine offsetting tools. The ANT framework has been applied to four case studies in California using data collected in a field study that consisted of interviewing 30 stakeholders working closely with the issue of marine offsetting. Employing ANT allowed to ascertain the role of commonly studied elements such... |
| Tipo: Text |
Palavras-chave: Governance; Biodiversity offset; Marine ecosystems; Actor Network theory; California. |
| Ano: 2018 |
URL: https://archimer.ifremer.fr/doc/00436/54805/56329.pdf |
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| Ciavatta, S.; Kay, S.; Saux-picart, S.; Butenschon, M.; Allen, J. I.. |
| This paper presents the first decadal reanalysis simulation of the biogeochemistry of the North West European shelf, along with a full evaluation of its skill, confidence, and value. An error-characterized satellite product for chlorophyll was assimilated into a physical-biogeochemical model of the North East Atlantic, applying a localized Ensemble Kalman filter. The results showed that the reanalysis improved the model simulation of assimilated chlorophyll in 60% of the study region. Model validation metrics showed that the reanalysis had skill in matching a large data set of in situ observations for 10 ecosystem variables. Spearman rank correlations were significant and higher than 0.7 for physical-chemical variables (temperature, salinity, and oxygen),... |
| Tipo: Text |
Palavras-chave: Marine ecosystems; Data assimilation; Ocean color; Air-sea flux of carbon dioxide; Dissolved oxygen; Marine policy. |
| Ano: 2016 |
URL: https://archimer.ifremer.fr/doc/00383/49422/49850.pdf |
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| Fu, Caihong; Large, Scott; Knight, Ben; Richardson, Anthony J.; Bundy, Alida; Reygondeau, Gabriel; Boldt, Jennifer; Van Der Meeren, Gro I.; Torres, Maria A; Sobrino, Ignacio; Auber, Arnaud; Travers-trolet, Morgane; Piroddi, Chiara; Diallo, Ibrahima; Jouffre, Didier; Mendes, Hugo; Borges, Maria Fatima; Lynam, Christopher P.; Coll, Marta; Shannon, Lynne J.; Shin, Yunne-jai. |
| Understanding how external pressures impact ecosystem structure and functioning is essential for ecosystem-based approaches to fisheries management. We quantified the relative effects of fisheries exploitation and environmental conditions on ecological indicators derived from two different data sources, fisheries catch data (catch-based) and fisheries independent survey data (survey-based) for 12 marine ecosystems using a partial least squares path modeling approach (PLS-PM). We linked these ecological indicators to the total biomass of the ecosystem. Although the effects of exploitation and environmental conditions differed across the ecosystems, some general results can be drawn from the comparative approach. Interestingly, the PLS-PM analyses showed... |
| Tipo: Text |
Palavras-chave: Ecological indicators; Environmental conditions; Fisheries exploitation; Marine ecosystems; Partial least squares path modeling. |
| Ano: 2015 |
URL: https://archimer.ifremer.fr/doc/00250/36155/34710.pdf |
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| Planque, Benjamin; Fromentin, Jean-marc; Cury, Philippe; Drinkwater, Kenneth F.; Jennings, Simon; Perry, R. Ian; Kifani, Souad. |
| Evidence has accumulated that climate variability influences the state and functioning of marine ecosystems. At the same time increasing pressure from exploitation and other human activities has been shown to impact exploited and non-exploited species and potentially modify ecosystem structure. There has been a tendency among marine scientists to pose the question as a dichotomy, i.e., whether (1) "natural" climate variability or (2) fishery exploitation bears the primary responsibility for population declines in fish populations and the associated ecosystem changes. However, effects of both climate and exploitation are probably substantially involved in most cases. More importantly, climate and exploitation interact in their effects, such that climate may... |
| Tipo: Text |
Palavras-chave: Resilience; Marine ecosystems; Demography; Climate fishing interactions. |
| Ano: 2010 |
URL: http://archimer.ifremer.fr/doc/2010/publication-7384.pdf |
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| Tagliabue, Alessandro; Barrier, Nicolas; Du Pontavice, Hubert; Kwiatkowski, Lester; Aumont, Olivier; Bopp, Laurent; Cheung, William W. L.; Gascuel, Didier; Maury, Olivier. |
| Earth System Models project that global climate change will reduce ocean net primary production (NPP), upper trophic level biota biomass and potential fisheries catches in the future, especially in the eastern equatorial Pacific. However, projections from Earth System Models are undermined by poorly constrained assumptions regarding the biological cycling of iron, which is the main limiting resource for NPP over large parts of the ocean. In this study, we show that the climate change trends in NPP and the biomass of upper trophic levels are strongly affected by modifying assumptions associated with phytoplankton iron uptake. Using a suite of model experiments, we find 21st century climate change impacts on regional NPP range from −12.3% to +2.4% under a... |
| Tipo: Text |
Palavras-chave: Climate change; Iron; Marine ecosystems; Net primary production; Ocean. |
| Ano: 2020 |
URL: https://archimer.ifremer.fr/doc/00652/76417/77470.pdf |
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| Muelbert, Jose H.; Nidzieko, Nicholas J.; Acosta, Alicia T. R.; Beaulieu, Stace E.; Bernardino, Angelo F.; Boikova, Elmira; Bornman, Thomas G.; Cataletto, Bruno; Deneudt, Klaas; Eliason, Erika; Kraberg, Alexandra; Nakaoka, Masahiro; Pugnetti, Alessandra; Ragueneau, Olivier; Scharfe, Mirco; Soltwedel, Thomas; Sosik, Heidi M.; Stanisci, Angela; Stefanova, Kremena; Stephan, Pierre; Stier, Adrian; Wikner, Johan; Zingone, Adriana. |
| Understanding the threats to global biodiversity and ecosystem services posed by human impacts on coastal and marine environments requires the establishment and maintenance of ecological observatories that integrate the biological, physical, geological, and biogeochemical aspects of ecosystems. This is crucial to provide scientists and stakeholders with the support and knowledge necessary to quantify environmental change and its impact on the sustainable use of the seas and coasts. In this paper, we explore the potential for the coastal and marine components of the International Long-Term Ecological Research Network (ILTER) to fill this need for integrated global observation, and highlight how ecological observations are necessary to address the challenges... |
| Tipo: Text |
Palavras-chave: Climate change; Marine ecosystems; Ecology; EOVs; SWOT; DEIMS. |
| Ano: 2019 |
URL: https://archimer.ifremer.fr/doc/00615/72756/72025.pdf |
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| Hofmann, Eileen; Bundy, Alida; Drinkwater, Ken; Piola, Alberto R.; Avril, Bernard; Robinson, Carol; Murphy, Eugene; Maddison, Lisa; Svendsen, Einar; Hall, Julie; Xu, Yi. |
| The Integrated Marine Biogeochemistry and Ecosystem Research (IMBER) project aims at developing a comprehensive understanding of and accurate predictive capacity of ocean responses to accelerating global change and the consequent effects on the Earth system and human society. Understanding the changing ecology and biogeochemistry of marine ecosystems and their sensitivity and resilience to multiple drivers, pressures and stressors is critical to developing responses that will help reduce the vulnerability of marine-dependent human communities. This overview of the IMBER project provides a synthesis of project achievements and highlights the value of collaborative, interdisciplinary, integrated research approaches as developed and implemented through IMBER... |
| Tipo: Text |
Palavras-chave: IMBER; Global environmental change; Marine ecosystems; Biogeochemical cycles; Human systems; Marine sustainability. |
| Ano: 2015 |
URL: https://archimer.ifremer.fr/doc/00383/49441/49932.pdf |
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| Registros recuperados: 19 | |
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