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Mostrando 981 - 1,000 Resultados de 18,145 Para Buscar '"biodiversity"', tiempo de consulta: 0.85s Limitar resultados
  1. 981
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    Text mining tools for extracting information about microbial biodiversity in food
  2. 982
    Materias: “…Biodiversity…”
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    Marine biodiversity research in the Ryukyu Islands, Japan: current status and trends
  3. 983
    por Li, Jia, Hughes, Alice C., Dudgeon, David
    Publicado 2019
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    Correction: Mapping wader biodiversity along the East Asian—Australasian flyway
  4. 984
    “…Identifying which ecosystem services are relevant to different stakeholders and understanding stakeholders’ perceptions of such services is useful for making informed decisions, especially in regions of the world where the achievement of biodiversity conservation goals is threatened by economically productive activities. …”
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    Social preferences for ecosystem services in a biodiversity hotspot in South America
  5. 985
    “…There is now strong evidence that ecosystem properties are influenced by alterations in biodiversity. The consensus that has emerged from over two decades of research is that the form of the biodiversity–functioning relationship follows a saturating curve. …”
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    Compensatory responses can alter the form of the biodiversity–function relation curve
  6. 986
    “…ISSUE: Geodiversity (i.e., the variation in Earth's abiotic processes and features) has strong effects on biodiversity patterns. However, major gaps remain in our understanding of how relationships between biodiversity and geodiversity vary over space and time. …”
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    Towards connecting biodiversity and geodiversity across scales with satellite remote sensing
  7. 987
    “…Cropland expansion mostly affects biodiversity hotspots in Central and South America, while cropland intensification threatens biodiversity especially in Sub-Saharan Africa, India and China. …”
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    Global impacts of future cropland expansion and intensification on agricultural markets and biodiversity
  8. 988
    “…The impact of a decline in oak trees on associated biodiversity, species that utilize oak trees, is unknown. …”
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    OakEcol: A database of Oak-associated biodiversity within the UK
  9. 989
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    The Biodiversity and Geochemistry of Cryoconite Holes in Queen Maud Land, East Antarctica
  10. 990
    “…Basidiomycetous fungi were still the dominant species, compared to the Ascomycota, but the selectivity step allowed for the first time the detection and study of the biodiversity of the Saccharomyces species in their natural environment.…”
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    Targeted metagenomics approach to capture the biodiversity of Saccharomyces genus in wild environments
  11. 991
    por Dainese, Matteo, Martin, Emily A., Aizen, Marcelo A., Albrecht, Matthias, Bartomeus, Ignasi, Bommarco, Riccardo, Carvalheiro, Luisa G., Chaplin-Kramer, Rebecca, Gagic, Vesna, Garibaldi, Lucas A., Ghazoul, Jaboury, Grab, Heather, Jonsson, Mattias, Karp, Daniel S., Kennedy, Christina M., Kleijn, David, Kremen, Claire, Landis, Douglas A., Letourneau, Deborah K., Marini, Lorenzo, Poveda, Katja, Rader, Romina, Smith, Henrik G., Tscharntke, Teja, Andersson, Georg K. S., Badenhausser, Isabelle, Baensch, Svenja, Bezerra, Antonio Diego M., Bianchi, Felix J. J. A., Boreux, Virginie, Bretagnolle, Vincent, Caballero-Lopez, Berta, Cavigliasso, Pablo, Ćetković, Aleksandar, Chacoff, Natacha P., Classen, Alice, Cusser, Sarah, da Silva e Silva, Felipe D., de Groot, G. Arjen, Dudenhöffer, Jan H., Ekroos, Johan, Fijen, Thijs, Franck, Pierre, Freitas, Breno M., Garratt, Michael P. D., Gratton, Claudio, Hipólito, Juliana, Holzschuh, Andrea, Hunt, Lauren, Iverson, Aaron L., Jha, Shalene, Keasar, Tamar, Kim, Tania N., Kishinevsky, Miriam, Klatt, Björn K., Klein, Alexandra-Maria, Krewenka, Kristin M., Krishnan, Smitha, Larsen, Ashley E., Lavigne, Claire, Liere, Heidi, Maas, Bea, Mallinger, Rachel E., Martinez Pachon, Eliana, Martínez-Salinas, Alejandra, Meehan, Timothy D., Mitchell, Matthew G. E., Molina, Gonzalo A. R., Nesper, Maike, Nilsson, Lovisa, O'Rourke, Megan E., Peters, Marcell K., Plećaš, Milan, Potts, Simon G., Ramos, Davi de L., Rosenheim, Jay A., Rundlöf, Maj, Rusch, Adrien, Sáez, Agustín, Scheper, Jeroen, Schleuning, Matthias, Schmack, Julia M., Sciligo, Amber R., Seymour, Colleen, Stanley, Dara A., Stewart, Rebecca, Stout, Jane C., Sutter, Louis, Takada, Mayura B., Taki, Hisatomo, Tamburini, Giovanni, Tschumi, Matthias, Viana, Blandina F., Westphal, Catrin, Willcox, Bryony K., Wratten, Stephen D., Yoshioka, Akira, Zaragoza-Trello, Carlos, Zhang, Wei, Zou, Yi, Steffan-Dewenter, Ingolf
    Publicado 2019
    “…Human land use threatens global biodiversity and compromises multiple ecosystem functions critical to food production. …”
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    A global synthesis reveals biodiversity-mediated benefits for crop production
  12. 992
    “…Here, we aimed to analyze the temporal and spatial changes in biodiversity patterns of fish in Poyang Lake Basin over the last 37 years. …”
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    Biodiversity pattern of fish assemblages in Poyang Lake Basin: Threat and conservation
  13. 993
    “…Positive biodiversity–ecosystem‐functioning (BEF) relationships are commonly found in experimental and observational studies, but how they vary in different environmental contexts and under the influence of coexisting life forms is still controversial. …”
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    Increasing water availability and facilitation weaken biodiversity–biomass relationships in shrublands
  14. 994
    “…We emphasize the importance of considering configurational effects on biodiversity at broader spatial scales and for more experimental research to delve into the mechanisms driving the patterns seen here.…”
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    Effects of habitat area and spatial configuration on biodiversity in an experimental intertidal community
  15. 995
    “…Hence, our results indicate that conserving and enhancing biodiversity in urban ecosystems is essential to preserve ecosystem services related to AGB production. …”
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    Ecosystem functioning in urban grasslands: The role of biodiversity, plant invasions and urbanization
  16. 996
    “…Retention forestry implies that biological legacies like dead and living trees are deliberately selected and retained beyond harvesting cycles to benefit biodiversity and ecosystem functioning. This model has been applied for several decades in even-aged, clearcutting (CC) systems but less so in uneven-aged, continuous-cover forestry (CCF). …”
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    Retention as an integrated biodiversity conservation approach for continuous-cover forestry in Europe
  17. 997
    “…The major challenges of improving food security and biodiversity conservation are intricately linked. To date, the intersection of food security and biodiversity conservation has been viewed primarily through an agricultural “production lens”—for example, via the land sparing/sharing framework, or the concept of sustainable intensification. …”
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    A social–ecological perspective on harmonizing food security and biodiversity conservation
  18. 998
    “…The results obtained underline that microbial diversity of extra virgin olive oils represents an unexpected sink of microbial diversity and poses safety issues on the possible biotechnological exploitation of this microbial biodiversity.…”
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    Bacterial Biodiversity of Extra Virgin Olive Oils and Their Potential Biotechnological Exploitation
  19. 999
    “…The geological processes thus provide additional links to ecosystem properties, which are prominent but show divergent effects on biodiversity and ecosystem functions: parent rock and weathering exert considerable direct effects on biodiversity, whereas indirectly influence ecosystem functions via interactions with biodiversity and contemporary environments. …”
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    Mountain biodiversity and ecosystem functions: interplay between geology and contemporary environments
  20. 1000
    “…Key findings include that (1) certain emerging disease events are preceded by biodiversity changes that can be observed from space; (2) refining quantitative assessments of biodiversity loss is a critical next step; and (3) biodiversity loss as observed from space merits inclusion in emerging disease surveillance programs as a complement to in situ and epidemiological surveillance data.…”
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    Earth observation for public health: Biodiversity change and emerging disease surveillance
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