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Publication DateFinisterra, ISSN 0430-5027, 2018, Volume 53, Issue 109, pp. 95 - 112
Frequências de mudança | Transitions | Crescimento urbano | Crecimiento urbano | Frecuencias de cambio | Transiciones | Urban growth | Land-use changes | Madrid | Fréquences des changements | Land use frequencies | Changements dans l'utilisation des sols | Cambios de usos del suelo | Transições | Croissance urbaine | Mudanças nos usos do solo
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Loading RightsConservation Biology, ISSN 0888-8892, 12/2012, Volume 26, Issue 6, pp. 1061 - 1071
Indian Himalayan basins are earmarked for widespread dam building, but aggregate effects of these dams on terrestrial ecosystems are unknown. We mapped...
Deforestation | Conservation biology | Extinct species | Dams | Species extinction | Forest cover | Forest conservation | Land cover | Species | Hydroelectric power | species richness | riqueza de especies | extinción de especies | species extinction | presas | cambio en el uso de suelo | land‐cover change | land‐use change | dams | cambio en la cobertura de suelo | Land-cover change | Land-use change | Species richness | WATER-RESOURCES | BIODIVERSITY | DEFORESTATION | MANAGEMENT | RICHNESS | land-cover change | land-use change | FRAGMENTATION | FOREST COVER | ENVIRONMENTAL SCIENCES | DYNAMICS | ECOLOGY | BIODIVERSITY CONSERVATION | SPECIES-AREA | Magnoliopsida - physiology | Geographic Information Systems | Animals | Butterflies - physiology | Ecosystem | Vertebrates - physiology | Conservation of Natural Resources | Biodiversity | Water Movements | India | Analysis | Rivers | Water-power | Extinction (Biology) | Design and construction | Biological diversity | Terrestrial ecosystems | Extinction | Environmental impact
Deforestation | Conservation biology | Extinct species | Dams | Species extinction | Forest cover | Forest conservation | Land cover | Species | Hydroelectric power | species richness | riqueza de especies | extinción de especies | species extinction | presas | cambio en el uso de suelo | land‐cover change | land‐use change | dams | cambio en la cobertura de suelo | Land-cover change | Land-use change | Species richness | WATER-RESOURCES | BIODIVERSITY | DEFORESTATION | MANAGEMENT | RICHNESS | land-cover change | land-use change | FRAGMENTATION | FOREST COVER | ENVIRONMENTAL SCIENCES | DYNAMICS | ECOLOGY | BIODIVERSITY CONSERVATION | SPECIES-AREA | Magnoliopsida - physiology | Geographic Information Systems | Animals | Butterflies - physiology | Ecosystem | Vertebrates - physiology | Conservation of Natural Resources | Biodiversity | Water Movements | India | Analysis | Rivers | Water-power | Extinction (Biology) | Design and construction | Biological diversity | Terrestrial ecosystems | Extinction | Environmental impact
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Loading RightsConservation Biology, ISSN 0888-8892, 10/2015, Volume 29, Issue 5, pp. 1446 - 1457
Landscapes in many developing countries consist of a heterogeneous matrix of mixed agriculture and forest. Many of the generalist species in this matrix are...
land‐use planning | forest | conservation planning | cambios en el uso de suelo | Africa | manejo de ecosistemas | remote sensing | land‐cover change | cambios en la cobertura de suelo | planeación del uso de suelo | África | ecosystem management | bosque | detección remota | land‐use change | planeación de la conservación | Ecosystem management | Conservation planning | Forest | Land-cover change | Land-use change | Land-use planning | Remote sensing | BIODIVERSITY | AGRICULTURE | land-cover change | land-use change | COMMUNITIES | HUNTING SUSTAINABILITY | FORESTS | ENVIRONMENTAL SCIENCES | IMPACT | CONSERVATION | WILDLIFE | ECOLOGY | land-use planning | BIODIVERSITY CONSERVATION | HARVEST | MAMMALS | Animals | Ecosystem | Transportation | Mammals - physiology | Commerce | Conservation of Natural Resources | Ghana | Biodiversity | Meat - economics | Population Dynamics | Land use | Planning | Environmental protection | Conservation biology | Hunting | Wildlife management | Wildlife | Human influences | Contributed Paper | Contributed Papers
land‐use planning | forest | conservation planning | cambios en el uso de suelo | Africa | manejo de ecosistemas | remote sensing | land‐cover change | cambios en la cobertura de suelo | planeación del uso de suelo | África | ecosystem management | bosque | detección remota | land‐use change | planeación de la conservación | Ecosystem management | Conservation planning | Forest | Land-cover change | Land-use change | Land-use planning | Remote sensing | BIODIVERSITY | AGRICULTURE | land-cover change | land-use change | COMMUNITIES | HUNTING SUSTAINABILITY | FORESTS | ENVIRONMENTAL SCIENCES | IMPACT | CONSERVATION | WILDLIFE | ECOLOGY | land-use planning | BIODIVERSITY CONSERVATION | HARVEST | MAMMALS | Animals | Ecosystem | Transportation | Mammals - physiology | Commerce | Conservation of Natural Resources | Ghana | Biodiversity | Meat - economics | Population Dynamics | Land use | Planning | Environmental protection | Conservation biology | Hunting | Wildlife management | Wildlife | Human influences | Contributed Paper | Contributed Papers
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Loading RightsConservation Biology, ISSN 0888-8892, 4/2011, Volume 25, Issue 2, pp. 276 - 284
Much of the remaining grassland, particularly in North America, is privately owned, and its conversion to cultivated cropland is largely driven by economics....
Conservation biology | Economic models | Land use change | Soil quality | Grasses | Agricultural land | Farmlands | Pastures | Crop economics | Land use | agricultural intensification | transition matrix | planificación de la conservación | conservation planning | intensificación agrícola | matriz de transición | land‐use change | probabilidad de conversión | conversion probability | cambio de uso de suelo | BIODIVERSITY | MANAGEMENT | planificacion de la conservacion | LANDSCAPE | probabilidad de conversion | land-use change | CLIMATE-CHANGE | matriz de transicion | ENVIRONMENTAL SCIENCES | CONSERVATION | POLLUTION | AGRICULTURAL POLICIES | HABITAT | LAND-USE | ECOLOGY | WETLANDS | BIODIVERSITY CONSERVATION | intensificacion agricola | Models, Theoretical | Montana | Agriculture - trends | Probability | Agriculture - economics | Midwestern United States | Likelihood Functions | Zea mays - economics | Ecosystem | Soil | Environment | Triticum - economics | Conservation of Natural Resources
Conservation biology | Economic models | Land use change | Soil quality | Grasses | Agricultural land | Farmlands | Pastures | Crop economics | Land use | agricultural intensification | transition matrix | planificación de la conservación | conservation planning | intensificación agrícola | matriz de transición | land‐use change | probabilidad de conversión | conversion probability | cambio de uso de suelo | BIODIVERSITY | MANAGEMENT | planificacion de la conservacion | LANDSCAPE | probabilidad de conversion | land-use change | CLIMATE-CHANGE | matriz de transicion | ENVIRONMENTAL SCIENCES | CONSERVATION | POLLUTION | AGRICULTURAL POLICIES | HABITAT | LAND-USE | ECOLOGY | WETLANDS | BIODIVERSITY CONSERVATION | intensificacion agricola | Models, Theoretical | Montana | Agriculture - trends | Probability | Agriculture - economics | Midwestern United States | Likelihood Functions | Zea mays - economics | Ecosystem | Soil | Environment | Triticum - economics | Conservation of Natural Resources
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Loading RightsConservation Biology, ISSN 0888-8892, 08/2015, Volume 29, Issue 4, pp. 1017 - 1027
Farmland abandonment takes place across the world due to socio‐economic and ecological drivers. In Europe agricultural and environmental policies aim to...
abandono de tierras agrícolas | manejo de la conservación | naturaleza | farmland abandonment | rewilding | políticas de biodiversidad | biodiversity policy | wilderness | cambio en el uso de suelo | conservation management | land‐use change | Natura 2000 | Rewilding | Farmland abandonment | Wilderness | Conservation management | Biodiversity policy | Land-use change | NET PRIMARY PRODUCTION | abandono de tierras agricolas | HUMAN APPROPRIATION | LAND | land-use change | CLIMATE-CHANGE | manejo de la conservacion | politicas de biodiversidad | FARMLAND BIRDS | ABANDONMENT | ENVIRONMENTAL SCIENCES | POLICY | ECOLOGY | LANDSCAPES | BIODIVERSITY CONSERVATION | IMPACTS | Conservation of Natural Resources - methods | Environmental Policy - legislation & jurisprudence | Ecosystem | Europe | Agriculture | Biodiversity | Conservation of Natural Resources - legislation & jurisprudence | Biological diversity conservation | Ecosystems | Plant succession | Wildlife conservation | Wilderness areas | Wildlife management | Biological diversity | Special Section | Conservation in Europe as a Model for Emerging Conservation Issues Globally
abandono de tierras agrícolas | manejo de la conservación | naturaleza | farmland abandonment | rewilding | políticas de biodiversidad | biodiversity policy | wilderness | cambio en el uso de suelo | conservation management | land‐use change | Natura 2000 | Rewilding | Farmland abandonment | Wilderness | Conservation management | Biodiversity policy | Land-use change | NET PRIMARY PRODUCTION | abandono de tierras agricolas | HUMAN APPROPRIATION | LAND | land-use change | CLIMATE-CHANGE | manejo de la conservacion | politicas de biodiversidad | FARMLAND BIRDS | ABANDONMENT | ENVIRONMENTAL SCIENCES | POLICY | ECOLOGY | LANDSCAPES | BIODIVERSITY CONSERVATION | IMPACTS | Conservation of Natural Resources - methods | Environmental Policy - legislation & jurisprudence | Ecosystem | Europe | Agriculture | Biodiversity | Conservation of Natural Resources - legislation & jurisprudence | Biological diversity conservation | Ecosystems | Plant succession | Wildlife conservation | Wilderness areas | Wildlife management | Biological diversity | Special Section | Conservation in Europe as a Model for Emerging Conservation Issues Globally
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Loading RightsConservation Biology, ISSN 0888-8892, 10/2013, Volume 27, Issue 5, pp. 1096 - 1106
Neotropical bats are sensitive to human-induced habitat changes, and some authors believe bats can be used as bioindicators. In the literature, however, the...
meta‐análisis | pérdida de hábitat | proporción de posibilidades | meta‐analysis | odds ratio | cambio de uso de suelo | habitat loss | bosque neotropical | Neotropical forest | effect size | land‐use change | tamaño de efecto | Chiroptera | Habitat loss | Effect size | Odds ratio | Land-use change | Meta-analysis | METAANALYSIS | LANDSCAPE | land-use change | CONSERVATION | INDICATORS | proporcion de posibilidades | DIVERSITY | BIODIVERSITY CONSERVATION | COFFEE AGROECOSYSTEMS | perdida de habitat | tamano de efecto | meta-analysis | PHYLLOSTOMID BATS | AMAZONIA | FOREST | meta-analisis | ENVIRONMENTAL SCIENCES | SYSTEMS | ECOLOGY | Animals | Humans | Population Density | Environment | Conservation of Natural Resources | Human Activities | Chiroptera - physiology | Odds Ratio | Population Dynamics | Bats | Usage | Indicators (Biology) | Wildlife conservation | Analysis | Land use | Rainforests | Habitats | Biological diversity
meta‐análisis | pérdida de hábitat | proporción de posibilidades | meta‐analysis | odds ratio | cambio de uso de suelo | habitat loss | bosque neotropical | Neotropical forest | effect size | land‐use change | tamaño de efecto | Chiroptera | Habitat loss | Effect size | Odds ratio | Land-use change | Meta-analysis | METAANALYSIS | LANDSCAPE | land-use change | CONSERVATION | INDICATORS | proporcion de posibilidades | DIVERSITY | BIODIVERSITY CONSERVATION | COFFEE AGROECOSYSTEMS | perdida de habitat | tamano de efecto | meta-analysis | PHYLLOSTOMID BATS | AMAZONIA | FOREST | meta-analisis | ENVIRONMENTAL SCIENCES | SYSTEMS | ECOLOGY | Animals | Humans | Population Density | Environment | Conservation of Natural Resources | Human Activities | Chiroptera - physiology | Odds Ratio | Population Dynamics | Bats | Usage | Indicators (Biology) | Wildlife conservation | Analysis | Land use | Rainforests | Habitats | Biological diversity
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Loading RightsConservation Biology, ISSN 0888-8892, 06/2019, Volume 33, Issue 3, pp. 590 - 600
Clearance and perturbation of Amazonian forests are one of the greatest threats to tropical biodiversity conservation of our times. A better understanding of...
soil fauna | selva | fauna del suelo | microorganismos | microorganisms | 土地利用变化, 土壤动物群, 微生物, 荟萃分析, 雨林 | meta‐análisis | rainforest | meta‐analysis | land‐use change | cambio de uso de suelo | meta-analysis | land-use change | PASTURE | RAIN-FOREST | MACROFAUNA | ENVIRONMENTAL SCIENCES | FAUNA | BRAZILIAN AMAZON | LAND-USE SYSTEM | BACTERIAL COMMUNITIES | BASIN | ECOLOGY | DIVERSITY | INVERTEBRATES | BIODIVERSITY CONSERVATION | Deforestation | Wildfires | Cropping systems | Biological diversity conservation | Analysis | Rain forests | Soil microbiology | Biological diversity | Forests | Policies | Ecosystems | Acidic soils | Forest management | Zoobenthos | Ecosystem disturbance | Agricultural land | Biomass | Biodiversity | Pastures | pH effects | Soil conservation | Ecosystem assessment | Microfauna | Microorganisms | Arable land | Tropical environment | pH | Ecosystem services | Logging | Protozoa | Annual precipitation | Wildlife conservation | Abundance | Vulnerability | Logging industry | Conversion | Environmental impact | Soils | Macrofauna | Public lands | Nematodes
soil fauna | selva | fauna del suelo | microorganismos | microorganisms | 土地利用变化, 土壤动物群, 微生物, 荟萃分析, 雨林 | meta‐análisis | rainforest | meta‐analysis | land‐use change | cambio de uso de suelo | meta-analysis | land-use change | PASTURE | RAIN-FOREST | MACROFAUNA | ENVIRONMENTAL SCIENCES | FAUNA | BRAZILIAN AMAZON | LAND-USE SYSTEM | BACTERIAL COMMUNITIES | BASIN | ECOLOGY | DIVERSITY | INVERTEBRATES | BIODIVERSITY CONSERVATION | Deforestation | Wildfires | Cropping systems | Biological diversity conservation | Analysis | Rain forests | Soil microbiology | Biological diversity | Forests | Policies | Ecosystems | Acidic soils | Forest management | Zoobenthos | Ecosystem disturbance | Agricultural land | Biomass | Biodiversity | Pastures | pH effects | Soil conservation | Ecosystem assessment | Microfauna | Microorganisms | Arable land | Tropical environment | pH | Ecosystem services | Logging | Protozoa | Annual precipitation | Wildlife conservation | Abundance | Vulnerability | Logging industry | Conversion | Environmental impact | Soils | Macrofauna | Public lands | Nematodes
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Loading RightsConservation Biology, ISSN 0888-8892, 02/2018, Volume 32, Issue 1, pp. 84 - 97
Conservation efforts to protect forested landscapes are challenged by climate projections that suggest substantial restructuring of vegetation and disturbance...
humanized landscapes | fire history | paisajes humanizados | pollen and charcoal analysis | forest management | historical ecology | manejo forestal | análisis de carbón y polen | paleoecology | ecología histórica | historia de incendios | cambio climático | land‐use change | cambio del uso de suelo | climate change | paleoecología | land-use change | POSTGLACIAL VEGETATION | NEW-ZEALAND | LANDSCAPE TRANSFORMATION | CLIMATE-CHANGE | FUTURE | COMMUNITIES | FIRE REGIMES | ENVIRONMENTAL SCIENCES | ECOLOGY | ECOSYSTEM | BIODIVERSITY CONSERVATION | WHITEBARK-PINE | Ecosystems | Protection and preservation | Forest conservation | Forest management | Climatic changes | Sustainable forestry | Land use | Environmental protection | Illustrations | Climate | Ecosystem dynamics | Terrestrial ecosystems | Human influences | New records | Conservation | Environmental changes | Ecosystem disturbance | Biodiversity | National parks | Ecosystem assessment | Palaeoecology | Dynamics | Disturbance | Ecological monitoring | Stone Age | Paleoecology | Linkages | Agricultural management | Landscape | Biological settlement | Conductors | Vulnerability | Land use management | Natural vegetation | Landscape preservation | Anthropogenic factors | Climate change | Dynamic tests | Vegetation | Fire
humanized landscapes | fire history | paisajes humanizados | pollen and charcoal analysis | forest management | historical ecology | manejo forestal | análisis de carbón y polen | paleoecology | ecología histórica | historia de incendios | cambio climático | land‐use change | cambio del uso de suelo | climate change | paleoecología | land-use change | POSTGLACIAL VEGETATION | NEW-ZEALAND | LANDSCAPE TRANSFORMATION | CLIMATE-CHANGE | FUTURE | COMMUNITIES | FIRE REGIMES | ENVIRONMENTAL SCIENCES | ECOLOGY | ECOSYSTEM | BIODIVERSITY CONSERVATION | WHITEBARK-PINE | Ecosystems | Protection and preservation | Forest conservation | Forest management | Climatic changes | Sustainable forestry | Land use | Environmental protection | Illustrations | Climate | Ecosystem dynamics | Terrestrial ecosystems | Human influences | New records | Conservation | Environmental changes | Ecosystem disturbance | Biodiversity | National parks | Ecosystem assessment | Palaeoecology | Dynamics | Disturbance | Ecological monitoring | Stone Age | Paleoecology | Linkages | Agricultural management | Landscape | Biological settlement | Conductors | Vulnerability | Land use management | Natural vegetation | Landscape preservation | Anthropogenic factors | Climate change | Dynamic tests | Vegetation | Fire
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Biodiversity loss along a gradient of deforestation in Amazonian agricultural landscapes
Conservation Biology, ISSN 0888-8892, 12/2018, Volume 32, Issue 6, pp. 1380 - 1391
Assessing how much management of agricultural landscapes, in addition to protected areas, can offset biodiversity erosion in the tropics is a central issue for...
Colombia | erosión de la biodiversidad | cambios en el uso de suelo | umbral | land‐use changes | threshold | brasil | conservación de la biodiversidad | landscape intensification | Brazil | biodiversity erosion | intensificación del paisaje | biodiversity conservation | land-use changes | SECONDARY | FRAGMENTATION | FORESTS | ENVIRONMENTAL SCIENCES | CO-INERTIA ANALYSIS | HABITAT | LAND-USE | PLANTS | SOIL | ECOLOGY | DIVERSITY | BIRDS | Deforestation | Agricultural industry | Birds | Rankings | Biological diversity conservation | Biological diversity | Protected areas | Agricultural management | Forests | Landscape | Agricultural land | Moths | Biodiversity | Density | Anthropogenic factors | Amplification | Species diversity | Quality | Tropical environments | Fruit flies | Surface area | Farmlands | Species | Species richness | Erosion | Geography | Humanities and Social Sciences | Biodiversity and Ecology | Environmental Sciences
Colombia | erosión de la biodiversidad | cambios en el uso de suelo | umbral | land‐use changes | threshold | brasil | conservación de la biodiversidad | landscape intensification | Brazil | biodiversity erosion | intensificación del paisaje | biodiversity conservation | land-use changes | SECONDARY | FRAGMENTATION | FORESTS | ENVIRONMENTAL SCIENCES | CO-INERTIA ANALYSIS | HABITAT | LAND-USE | PLANTS | SOIL | ECOLOGY | DIVERSITY | BIRDS | Deforestation | Agricultural industry | Birds | Rankings | Biological diversity conservation | Biological diversity | Protected areas | Agricultural management | Forests | Landscape | Agricultural land | Moths | Biodiversity | Density | Anthropogenic factors | Amplification | Species diversity | Quality | Tropical environments | Fruit flies | Surface area | Farmlands | Species | Species richness | Erosion | Geography | Humanities and Social Sciences | Biodiversity and Ecology | Environmental Sciences
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Loading RightsConservation Biology, ISSN 0888-8892, 02/2018, Volume 32, Issue 1, pp. 229 - 239
Over half of globally threatened animal species have experienced rapid geographic range loss. Identifying the parts of species’ distributions most vulnerable...
monitoreo de la biodiversidad | biodiversity monitoring | species distribution | ecología espacial | dynamic occupancy model | cambio en el uso de suelo | extensión geográfica | modelo de ocupación dinámica | multispecies model | Galliformes | distribución de especies | geographic range | land‐use change | spatial ecology | land-use change | BIODIVERSITY | BIOGEOGRAPHY | TRAJECTORIES | PATTERNS | FRAGMENTATION | ENVIRONMENTAL SCIENCES | CONSERVATION | CONTRACTION | HABITAT | DYNAMICS | ECOLOGY | BIODIVERSITY CONSERVATION | BIRDS | Local extinction | Wildlife conservation | Extinction (Biology) | Endangered species | Extinct species | Landscape | Extinction | Probability theory | Species extinction | Spatial discrimination | Biogeography | Environmental factors | Vulnerability | Animal populations | Land use | Cores | Endangered & extinct species | Risks | Threatened species | Wildfowl | Land degradation | Bayesian analysis | Species
monitoreo de la biodiversidad | biodiversity monitoring | species distribution | ecología espacial | dynamic occupancy model | cambio en el uso de suelo | extensión geográfica | modelo de ocupación dinámica | multispecies model | Galliformes | distribución de especies | geographic range | land‐use change | spatial ecology | land-use change | BIODIVERSITY | BIOGEOGRAPHY | TRAJECTORIES | PATTERNS | FRAGMENTATION | ENVIRONMENTAL SCIENCES | CONSERVATION | CONTRACTION | HABITAT | DYNAMICS | ECOLOGY | BIODIVERSITY CONSERVATION | BIRDS | Local extinction | Wildlife conservation | Extinction (Biology) | Endangered species | Extinct species | Landscape | Extinction | Probability theory | Species extinction | Spatial discrimination | Biogeography | Environmental factors | Vulnerability | Animal populations | Land use | Cores | Endangered & extinct species | Risks | Threatened species | Wildfowl | Land degradation | Bayesian analysis | Species
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Loading RightsConservation Biology, ISSN 0888-8892, 04/2019, Volume 33, Issue 2, pp. 413 - 422
Wind energy development is the most recent of many pressures on upland bird communities and their habitats. Studies of birds in relation to wind energy...
bird guilds | turbinas de viento | 风力涡轮机 | desplazamiento | wind farms | 土地利用变化 | cambio de uso de suelo | modificación de hábitat | habitat modification | 被迫迁徙 | campos eólicos | 鸟类同资源种团 | displacement | uplands | tierras altas | wind turbines | land‐use change | 生境改造 | gremios de aves | 风电场 | land-use change | TURBINES | RAPTORS | modificacion de habitat | (sic)(sic)涡轮(sic) | (sic)(sic)(sic) | CONSERVATION | 鸟(sic)(sic)(sic)(sic)(sic)(sic) | IMPACTS | BIODIVERSITY CONSERVATION | (sic)(sic)徙 | FARMS | (sic)(sic)(sic)(sic) | POPULATION TRENDS | CHALLENGES | ENVIRONMENTAL SCIENCES | mountain(sic) | WILDLIFE | ECOLOGY | (sic)(sic)(sic)(sic)(sic)(sic) | campos eolicos | Forests | Habitats | Habitat changes | Wind effects | Biodiversity | Species diversity | Control | Wind energy | Energy | Wind farms | Habitat | Breeding seasons | Species | Turbines | Community composition | Construction | Landscape | Stability | Habitat loss | Breeding | Birds | Environmental factors | Displacement | Land use | Surveys | Wind power generation | Control stability | Wind power
bird guilds | turbinas de viento | 风力涡轮机 | desplazamiento | wind farms | 土地利用变化 | cambio de uso de suelo | modificación de hábitat | habitat modification | 被迫迁徙 | campos eólicos | 鸟类同资源种团 | displacement | uplands | tierras altas | wind turbines | land‐use change | 生境改造 | gremios de aves | 风电场 | land-use change | TURBINES | RAPTORS | modificacion de habitat | (sic)(sic)涡轮(sic) | (sic)(sic)(sic) | CONSERVATION | 鸟(sic)(sic)(sic)(sic)(sic)(sic) | IMPACTS | BIODIVERSITY CONSERVATION | (sic)(sic)徙 | FARMS | (sic)(sic)(sic)(sic) | POPULATION TRENDS | CHALLENGES | ENVIRONMENTAL SCIENCES | mountain(sic) | WILDLIFE | ECOLOGY | (sic)(sic)(sic)(sic)(sic)(sic) | campos eolicos | Forests | Habitats | Habitat changes | Wind effects | Biodiversity | Species diversity | Control | Wind energy | Energy | Wind farms | Habitat | Breeding seasons | Species | Turbines | Community composition | Construction | Landscape | Stability | Habitat loss | Breeding | Birds | Environmental factors | Displacement | Land use | Surveys | Wind power generation | Control stability | Wind power
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