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100   $a20100525d2010      ub             0
101 0 $aeng
135   $aurnn#---|u||u
181   $ctxt
182   $cc
183   $acr
200 00$aSerpentine$b[electronic resource] $ethe evolution and ecology of a model system /$fedited by Susan Harrison and Nishanta Rajakaruna
210   $aBerkeley $cUniversity of California Press$dc2010
215   $a1 online resource (461 p.)
300   $aDescription based upon print version of record.
311 0 $a0-520-26835-0 
320   $aIncludes bibliographical references and indexes.
327   $tFront matter --$tContents --$tContributors --$tPreface --$tIntroduction --$t1. Serpentinites and Other Ultramafic Rocks: Why They Are Important for Earth's History and Possibly for Its Future --$t2. Microbes in Extreme Environments: Implications for Life on the Early Earth and Other Planets --$t3. Phylogenetic Patterns of Endemism and Diversity --$t4. Plant Speciation --$t5. Intraspecific Variation, Adaptation, and Evolution --$t6. Genomic Approaches to Understanding Adaptation --$t7. Local Adaptation in Heterogeneous Landscapes: Reciprocal Transplant Experiments and Beyond --$t8. Herbivory and Other Cross-Kingdom Interactions on Harsh Soils --$t9. Invasions and the Evolution of Range Limits --$t10. Plant Competition and Facilitation in Systems with Strong Environmental Gradients --$t11. Community Invasibility: Spatial Heterogeneity, Spatial Scale, and Productivity --$t12. Disturbance and Diversity in Low-Productivity Ecosystems --$t13. Plant-Pollinator Interactions in Naturally Fragmented Habitats --$t14. Spatial Ecology: The Effects of Habitat Patch Size, Shape, and Isolation on Ecological Processes --$t15. Systematic Conservation Planning: Protecting Rarity, Representation, and Connectivity in Regional Landscapes --$t16. Biodiversity, Ecosystem Functioning, and Global Change --$t17. Climate Change and Plant Communities on Unusual Soils --$t18. Restoration and Revegetation of Harsh Soils --$t19. What Have We Learned from Serpentine in Evolution, Ecology, and Other Sciences? --$tSpecies Index --$tSubject Index
330   $aSerpentine soils have long fascinated biologists for the specialized floras they support and the challenges they pose to plant survival and growth. This volume focuses on what scientists have learned about major questions in earth history, evolution, ecology, conservation, and restoration from the study of serpentine areas, especially in California. Results from molecular studies offer insight into evolutionary patterns, while new ecological research examines both species and communities. Serpentine highlights research whose breadth provides context and fresh insights into the evolution and ecology of stressful environments.
606   $aPlants$xAdaptation
606   $aPlants$xEvolution
606   $aPlant-soil relationships
606   $aSerpentine plants
606   $aSoils$xSerpentine content
610   $aadaptation.
610   $abiodiversity.
610   $abiology.
610   $abiosphere.
610   $aclimate change.
610   $aclimate.
610   $aconservation.
610   $aearth history.
610   $aecology.
610   $aendemism.
610   $aenvironment.
610   $aenvironmentalism.
610   $aevolution.
610   $aflora.
610   $ageology.
610   $aglobal warming.
610   $ahabitat.
610   $aharsh soils.
610   $ainvasive species.
610   $alife sciences.
610   $aminerals.
610   $amolecular studies.
610   $anature.
610   $anonfiction.
610   $aplant growth.
610   $aplant soil.
610   $aplant speciation.
610   $aplant survival.
610   $apollination.
610   $arestoration ecology.
610   $arestorative ecology.
610   $arevegetation.
610   $arocks.
610   $ascience.
610   $aserpentine soils.
610   $aserpentine.
610   $astressful environments.
610   $aultramafic rocks.
615  0$aPlants$xAdaptation.
615  0$aPlants$xEvolution.
615  0$aPlant-soil relationships.
615  0$aSerpentine plants.
615  0$aSoils$xSerpentine content.
676   $a581.4
701   $aHarrison$b Susan$g(Susan Patricia)$01476099
701   $aRajakaruna$b Nishanta$f1969-$01476100
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910785592403321
996   $aSerpentine$93690501
997   $aUNINA