How in the world are we?     

Carey WD 《Science (New York, N.Y.)》1986,232(4754):1073

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Science and the politics of development     

Carey WD 《Science (New York, N.Y.)》1979,205(4413):1339

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Science and public understanding     

Carey WD 《Science (New York, N.Y.)》1979,204(4395):797

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1980 report of the executive officer     

Carey WD 《Science (New York, N.Y.)》1981,211(4485):916-921

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Science education: rhetoric and reality     

Carey WD 《Science (New York, N.Y.)》1981,211(4480):339

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Charting a course for science     

Carey WD 《Science (New York, N.Y.)》1981,212(4502):1455

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Effects of area and isolation of woodland patches on herbaceous plant species richness across Great Britain   总被引：5，自引：2，他引：5  

Petit  Sandrine  Griffiths  Leila  Smart  Simon S.  Smith  Geoff M.  Stuart  Rick C.  Wright  Simon M. 《Landscape Ecology》2004,19(5):463-471

Richness of Ancient Woodland Indicator plant species was analysed in 308 woodland patches that were surveyed during the Countryside Survey of Great Britain carried out in 1998. The Countryside Survey recorded vegetation plots and landscape structure in 569 stratified 1 km sample squares and developed a remotely-sensed land cover map of the UK. Using these datasets, we tested the hypothesis that Ancient Woodland Indicator species richness in woodland fragments was limited by patch area, shape and spatial isolation and that woodland patches located in the lowland region of Great Britain would respond differently than those in the upland region. The variation in Ancient Woodland Indicator species richness in the British lowlands (n = 218) was mainly explained by patch area and two measures of connectivity, the length of hedgerows and lines of trees in the 1 km square and the area of woodland within 500 m of the vegetation plot. By contrast, variation in Ancient Woodland Indicator species richness in the British uplands (n = 90) was related to Ellenberg scores of the vegetation communities sampled – a surrogate for habitat quality – and no significant effect of spatial structure was detected. It therefore appears that the degree of fragmentation of woodland in the British lowlands limits the distribution of Ancient Woodland Indicator species, while in the uplands, failed colonisation is a matter of habitat quality rather than a result of landscape structure.This revised version was published online in May 2005 with corrections to the Cover Date.  相似文献   

Asymptomatic carriage of canine infectious respiratory disease complex pathogens among healthy dogs     

L. K. Okonkowski  D. Szlosek  J. Ottney  M. Coyne  S. A. Carey 《The Journal of small animal practice》2021,62(8):662-668

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Relevance of the ecological traits of parasitoid wasps and nectariferous plants for conservation biological control: a hybrid meta‐analysis     

Pingyang Zhu  Xusong Zheng  Gang Xie  Guihua Chen  Zhongxian Lu  Geoff Gurr 《Pest management science》2020,76(5):1881-1892

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Tracking change in a human‐dominated landscape: developing conservation guidelines using freshwater fish     

Michael P. Carey  Martha E. Mather 《水产资源保护:海洋与淡水生态系统》2008,18(6):877-890

• 1. To conserve biodiversity in a human‐dominated landscape, a science‐based inventory and monitoring plan is needed that quantifies existing resources, isolates drivers that maintain natural communities, determines harmful stressors, and links ecological drivers and human stressors. A tactical approach is proposed for conservation planning using freshwater fish at the Cape Cod National Seashore.
• 2. Freshwater fish are well studied and occur across environmental gradients. The lentic systems at the national park are relatively pristine yet are enveloped by a region of high population density. Using fish community data, three steps were taken for tracking anthropogenic impacts in a human dominated landscape. First, fish and potential drivers were sampled intensively along a gradient to determine which fish metrics reflect natural communities and which abiotic and biotic factors structure them. Second, emerging and existing regional human threats were identified. Third, these human threats were linked to the potential drivers that maintain natural communities to identify the most informative metrics to monitor and track change.
• 3. Fish communities, water quality, habitat, and food resources were sampled concurrently in 18 ponds in 1999 and 2000. Three common fish species explained 98% of variation in numbers across systems. Based on ecological relationships, pH, depth, vegetation, prey, and community complexity were determined to maintain biodiversity of freshwater fish communities.
• 4. The primary human threats here included: development‐related, land‐use changes; non‐point source pollution; eutrophication from septic systems; and introduced species that are a byproduct of high human visitation. These are common threats in many rapidly urbanized areas and are likely to have relevance to many sites.
• 5. To track the impact of emerging threats to freshwater ponds related to increased human population, monitoring changes in water quality, vegetated habitat, fish diversity, and trophic interactions are recommended.

Copyright © 2008 John Wiley & Sons, Ltd.  相似文献