LEADER 04881nam 22005053u 450 001 9910791653803321 005 20230725015917.0 010 $a1-59726-959-X 035 $a(CKB)2560000000054756 035 $a(EBL)3317497 035 $a(OCoLC)692205217 035 $a(MiAaPQ)EBC3317497 035 $a(EXLCZ)992560000000054756 100 $a20160704d2010|||| u|| | 101 0 $aeng 200 10$aConservation by Proxy$b[electronic resource] $eIndicator, Umbrella, Keystone, Flagship, and Other Surrogate Species 210 $aWashington DC $cIsland Press$d2010 215 $a1 online resource (394 p.) 300 $aDescription based upon print version of record. 311 $a1-59726-193-9 327 $aTitle Page; Copyright Page; Table of Contents; Preface; Chapter 1: Buzzwords in Conservation Biology; Shortcuts; Biodiversity; Usage; Documentation; Remarkable Species; Scale; Surrogate Species in Systematic Conservation; Taxonomy of Surrogate Species; Other Terms; Difficulties in Surrogate Typology; Loose Definitions; Lax Terminology; Multiple Application and Purpose; Using the Same Species for Two Surrogate Tasks; Hidden Agendas and Research Displacement Activities; Summary; Chapter 2: Species Indicators of Biodiversity at a Large Scale; A Big Picture; Congruency of Species Richness 327 $aEnvironmental Surrogates Higher Taxa; Congruency of Endemism; Congruency of Rarity; Congruency of Threatened Species; Complementarity and Congruency; Concordance between different Measures of Biodiversity; Global Scale; Continental Scale; Complementarity; Biodiversity Distribution and Protected Areas; Practical Application; Summary; Chapter 3: Species Indicators of Biodiversity in Reserve Selection; A Smaller Scale; Cross-Taxon Congruence of Species Richness; Within-Taxon Congruence of Species Richness; Taxon Subsets ; Higher Taxa; Morphospecies 327 $aCongruency of Endemism, Congruency of Rarity, and Congruency of Threatened Species Concordance between Measures of Biodiversity; Species Richness and Endemism; Species Richness and Rarity; Species Richness and Threatened Species; Biodiversity Metrics; Congruency of Complementarity ; Species Richness; Other Biodiversity Measures; Persistence; Higher Taxa; Protected Area of Coverage; Marine Reserve Prioritization; Environmental Surrogates; Combining Environmental and Taxonomic Surrogates; Practical Issues; Summary; Chapter 4: Umbrella Species and Landscape Species; Three Conservation Goals 327 $aLambeck's Insight Umbrella Species by Taxon; Plants; Invertebrates; Mammals; Birds; Choosing an Appropriate Umbrella Species; Problems with Umbrella Species; Management Implications; Landscape Species; Summary; Chapter 5: Keystone, Engineering, and Foundation Species; The Keystone Species Concept; Classic Keystone Species; Wider Scope; Mesopredator Release in Temperate Ecosystems; Ecological Meltdown in the Neotropics; Keystone Introductions; Removing Invasive Species; Problems with Using Keystone Species as a Conservation Tool; Reasons for Continuing to Use Keystone Species 327 $aEcosystem Engineers Mechanisms of Habitat Modification; Examples of Ecosystem Engineers; Difficulties in using Ecosystem Engineers in Conservation; Advantages of Ecosystem Engineers; Foundation Species; Management Issues; Summary; Chapter 6: Environmental Indicator Species; Ecosystem Health and Biological Integrity; Environmental Indicators; Sentinel Species; Examples of the Uses of Environmental Indicator Species; Marine Pollution; Freshwater Pollution; River Modification; Marine Fisheries; Climate Change in Marine Ecosystems; Proliferation and Obfuscation of Terms; Summary 327 $aChapter 7: Ecological-Disturbance Indicator Species 330 $aBecause of the scope of conservation problems, biologists and managers often rely on ""surrogate"" species to act as proxies to represent larger conservation issues. In Conservation by Proxy, conservation biologist and field researcher Tim Caro offers systematic definitions of surrogate species concepts, explores the theories behind them, considers how surrogate species are chosen, examines evidence for and against their utility, and makes recommendations for their continued use. 606 $aConservation of natural resources 606 $aElectronic books. -- local 606 $aEnvironmental protection 606 $aGlobalization 615 4$aConservation of natural resources. 615 4$aElectronic books. -- local. 615 4$aEnvironmental protection. 615 4$aGlobalization. 676 $a333.95/16 700 $aCaro$b T. M$g(Timothy M.)$0626877 701 $aGirling$b Sheila$01513547 801 0$bAU-PeEL 801 1$bAU-PeEL 801 2$bAU-PeEL 906 $aBOOK 912 $a9910791653803321 996 $aConservation by Proxy$93748110 997 $aUNINA LEADER 03590nam 2200481 450 001 9910808235203321 005 20191011074736.0 010 $a1-906897-79-4 010 $a1-906897-77-8 035 $a(CKB)4100000004817492 035 $a(MiAaPQ)EBC5377495 035 $a(PPN)234149140 035 $a(EXLCZ)994100000004817492 100 $a20180523d2018 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aBikes and bloomers $eVictorian women inventors and their extraordinary cycle wear /$fKat Jungnickel 210 1$aLondon :$cGoldsmiths Press,$d[2018] 210 4$dİ2018 215 $a1 online resource (xii, 323 pages) 300 $aDescription based upon print version of record. 311 $a1-906897-75-1 320 $aIncludes bibliographical references and index. 330 $aAn illustrated history of the evolution of British women's cycle wear.The bicycle in Victorian Britain is often celebrated as a vehicle of women's liberation. Less noted is another critical technology with which women forged new and mobile public lives?cycle wear. This illustrated account of women's cycle wear from Goldsmiths Press brings together Victorian engineering and radical feminist invention to supply a missing chapter in the history of feminism. Despite its benefits, cycling was a material and ideological minefield for women. Conventional fashions were unworkable, with skirts catching in wheels and tangling in pedals. Yet wearing ?rational? cycle wear could provoke verbal and sometimes physical abuse from those threatened by newly mobile women. Seeking a solution, pioneering women not only imagined, made, and wore radical new forms of cycle wear but also patented their inventive designs. The most remarkable of these were convertible costumes that enabled wearers to transform ordinary clothing into cycle wear. Drawing on in-depth archival research and inventive practice, Kat Jungnickel brings to life in rich detail the little-known stories of six inventors of the 1890s. Alice Bygrave, a dressmaker of Brixton, registered four patents for a skirt with a dual pulley system built into its seams. Julia Gill, a court dressmaker of Haverstock Hill, patented a skirt that drew material up the waist using a mechanism of rings or eyelets. Mary and Sarah Pease, sisters from York, patented a skirt that could be quickly converted into a fashionable high-collar cape. Henrietta Müller, a women's rights activist of Maidenhead, patented a three-part cycling suit with a concealed system of loops and buttons to elevate the skirt. And Mary Ann Ward, a gentlewoman of Bristol, patented the ?Hyde Park Safety Skirt,? which gathered fabric at intervals using a series of side buttons on the skirt. Their unique contributions to cycling's past continue to shape urban life for contemporary mobile women.--publisher. 606 $aWomen cyclists$xClothing$zGreat Britain$xHistory$y19th century 606 $aWomen's clothing$zGreat Britain$xHistory$y19th century 606 $aCycling$xSocial aspects$zGreat Britain$xHistory$y19th century 615 0$aWomen cyclists$xClothing$xHistory 615 0$aWomen's clothing$xHistory 615 0$aCycling$xSocial aspects$xHistory 676 $a646.4/04 700 $aJungnickel$b Katrina$01185786 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 801 2$bSFU 906 $aBOOK 912 $a9910808235203321 996 $aBikes and bloomers$92748812 997 $aUNINA