Biodiversity
In: in Alam, Bhuiyan, Chowdhury and Techera eds., Routledge Handbook of International Environmental Law. Routledge, 2012
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In: in Alam, Bhuiyan, Chowdhury and Techera eds., Routledge Handbook of International Environmental Law. Routledge, 2012
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In: Aquaculture, Resource Use, and the Environment, S. 235-259
In: Sustainable Development Policy Directory, S. 12-47
In: OECD Environmental Outlook to 2030; OECD Environmental Outlook, S. 197-217
In: Social change, Band 31, Heft 1-2, S. 21-37
ISSN: 0976-3538
'Recover' is a term used when something is lost. 'Recovering Biodiversity' in our view addresses two levels at which we are 'losing biodiversity'. Biodiversity is getting lost through extinction and erosion with serious consequences for ecological balance and economic well being. It is also getting lost in terms of ownership and control through 'Biopiracy'-the phenomenon of claiming property rights to biodiversity and its products through intellectual property rights regimes and patents based on indigenous and traditional knowledge.
In: Sustainable Development and Biodiversity 4
This book provides complete, comprehensive and broad subject based reviews complete in it-self, useful for students, teachers, researchers and all others interested in the biodiversity conservation. The field of biotechnology has been kept broad to accommodate the wide ranging topics. How biotechnology can affect and solve the problems related to biodiversity management, protection and conservation are described. Current rates of disappearance of biological and cultural diversity in the world are unprecedented. Intensive resource exploitation due to social and economic factors has led to the destruction, conversion or degradation of ecosystems. Reversing these trends requires time to time assessment to integrate conservation and development. Biotechnological tools, particularly the micropropagation technique has been helpful in developing protocols for multiplication of endangered and threatened species. Chapters are written by leading scientists in their field and include biotechnological approaches to threatened and endangered species, pteridophytes, conifers, non-conifer species of gymnosperms, tree species, impact of genetically modified crops, cryopreservation of diverse species, conservation of forest resources, and health and environment. The book will be useful to botanists, biotechnologists, environmentalists, policy makers, conservationists and NGOs working for environment protection
In: Forthcoming, J Razzaque and E Morgera (eds), Encyclopedia of Environmental Law: Biodiversity and Nature Protection Law (Edward Elgar, 2017)
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Biodiversity provides essential services to human societies. Many of these services are provided as public goods, so that they will typically be underprovided both by market mechanisms (because of the impossibility of excluding non-payers from using the services) and by government-run systems (because of the free rider problem). I suggest here that in some cases the public goods provided by biodiversity conservation can be bundled with private goods and their value to consumers captured in the price realized by the private goods. This may lead to an efficient level of provision.
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There has been major progress over the last two decades in digitising historical knowledge of biodiversity and in making biodiversity data freely and openly accessible. Interlocking efforts bring together international partnerships and networks, national, regional and institutional projects and investments and countless individual contributors, spanning diverse biological and environmental research domains, government agencies and non-governmental organisations, citizen science and commercial enterprise. However, current efforts remain inefficient and inadequate to address the global need for accurate data on the world's species and on changing patterns and trends in biodiversity. Significant challenges include imbalances in regional engagement in biodiversity informatics activity, uneven progress in data mobilisation and sharing, the lack of stable persistent identifiers for data records, redundant and incompatible processes for cleaning and interpreting data and the absence of functional mechanisms for knowledgeable experts to curate and improve data. The first Global Biodiversity Informatics Conference (GBIC) in 2012 delivered the Global Biodiversity Informatics Outlook (GBIO, Hobern et al. 2012), an architectural vision for the major components of a distributed global infrastructure for biodiiversity information, but realigning the work of existing organisations and projects to achieve this vision remains challenging. Recognising the need for greater alignment between efforts at all scales, the Global Biodiversity Information Facility (GBIF) convened the second Global Biodiversity Informatics Conference (GBIC2) in July 2018 to propose a coordination mechanism for developing shared roadmaps for biodiversity informatics. GBIC2 attendees reached consensus on the need for a global alliance for biodiversity knowledge, learning from examples such as the Global Alliance for Genomics and Health (GA4GH) and the open software communities under the Apache Software Foundation. These initiatives provide models for ...
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In: Sustainable Development and Biodiversity 24
In: Springer eBook Collection
In: Springer eBooks
In: Biomedical and Life Sciences
1. Introduction -- Part I: Biodiversity -- 2. Generation of Data on Reproductive Ecology is Important for Effective Conservation of Our Plant Diversity -- 3. Molecular Approaches to Explore Coastal Benthic Metazoan Diversity - Success and Constraints -- 4. Soft Corals Biodiversity in the Egyptian Red Sea -- 5. Assessment of Grasslands in Indian Desert - a Holistic Approach -- Part II: Chemotaxonomic Markers -- 6. Chemotaxonomy Significance of Alkaloids in Plants -- 7. Iridoids as Chemotaxonomic Marker -- 8. Chemosystematic Significance of Flavonoids -- 9. Isoquinoline Alkaloids as Chemotaxonomic Markers -- 10. Saponin Diversity in Plants -- 11. Chemotaxonomy and Chemodiversity of Fungal Polyketides -- 12. Chemotaxonomic Profiling for High-Value Caretonoids in Microalgae -- 13. Fungi -- Part III: Diversity and Phylogeny -- 14. Plant Barcoding and Phylogenetic Analysis: Advances, Challenges and Future Trends -- 15. Molecular Techniques to Assess Plant Diversity -- 16. Diversity of the Genus Ocimum -- 17. Phylogeny in Echinocereus (Cactaceae): Taxonomic Implications -- 18. Genetic Variation in Brassica and Allied Genera -- Part IV: Case Studies in Chemotaxonomy -- 19. Chemotaxonomic Survey on the Genus Sedum L. (Crassulaceae) Based on Distribution and Variability of the Epicuticular Wax Constituents -- 20. Chemotaxonomic Study of Volatile Oils from Rhizomes of Zingiber species (Zingigeraceae) -- 21. Chemical Variability in Essential Oils from Ruta Species and its Taxonomic and Ecological Significance -- 22. Conclusions
There has been major progress over the last two decades in digitising historical knowledge of biodiversity and in making biodiversity data freely and openly accessible. Interlocking efforts bring together international partnerships and networks, national, regional and institutional projects and investments and countless individual contributors, spanning diverse biological and environmental research domains, government agencies and non-governmental organisations, citizen science and commercial enterprise. However, current efforts remain inefficient and inadequate to address the global need for accurate data on the world's species and on changing patterns and trends in biodiversity. Significant challenges include imbalances in regional engagement in biodiversity informatics activity, uneven progress in data mobilisation and sharing, the lack of stable persistent identifiers for data records, redundant and incompatible processes for cleaning and interpreting data and the absence of functional mechanisms for knowledgeable experts to curate and improve data. The first Global Biodiversity Informatics Conference (GBIC) in 2012 delivered the Global Biodiversity Informatics Outlook (GBIO, Hobern et al. 2012), an architectural vision for the major components of a distributed global infrastructure for biodiiversity information, but realigning the work of existing organisations and projects to achieve this vision remains challenging. Recognising the need for greater alignment between efforts at all scales, the Global Biodiversity Information Facility (GBIF) convened the second Global Biodiversity Informatics Conference (GBIC2) in July 2018 to propose a coordination mechanism for developing shared roadmaps for biodiversity informatics. GBIC2 attendees reached consensus on the need for a global alliance for biodiversity knowledge, learning from examples such as the Global Alliance for Genomics and Health (GA4GH) and the open software communities under the Apache Software Foundation. These initiatives provide models for multiple stakeholders with decentralised funding and independent governance to combine resources and develop sustainable solutions that address common needs. GBIF was asked to coordinate next steps following GBIC2, including publication of a paper, Connecting data and expertise: a new alliance for biodiversity knowledge (Hobern et al. 2019). The supplementary materials for the paper include PDF brochures explaining the concept in eleven languages. During 2019, GBIF is coordinating further consultations to establish an optimal model for the governance and operations of the alliance and to advance collaboration around some of the major building blocks of the GBIO. Collaboration at this scale, and across all aspects of biodiversity information, is essential for effective delivery of important information products such as the Essential Biodiversity Variables and the planned pan-European natural history collections infrastructure, DiSSCo. This presentation explains the goals for this alliance and updates on progress during 2019 in operationalising the concept.
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In: European Corporate Governance Institute – Finance Working Paper No. 901/2023
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