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Plant Adaptation to Extreme Environments in Drylands—Series II

Plant Adaptation to Extreme Environments in Drylands—Series II

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Our reprint consists of 13 papers. The first paper is a summary of all the papers. In the second and third papers, foliar water uptake and its driving mechanisms are addressed. In the fourth and fifth papers, differences in functional traits, including chemical and physiological traits, across water environmental gradients and between organic tissues are examined. The sixth paper describes the effects of trait variation on plant diversity and ecosystem function. The seventh and eighth papers investigate the differences in nutrients between different tissues in plants and how they vary along environmental gradients. In the ninth study, the changes in tree cavities across the environmental gradient are expounded. Papers ten through eleventh describe the relationship among soil microbes, plants, and the environment. The twelve paper describes the vegetation response to runoff changes at the landscape scale. The last paper studies the impact of highway construction on ecosystem function.

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Keywords

  • Adaptation strategy
  • arid area
  • arid desert area
  • arid desert region
  • artificial shelter forest
  • biochemical characteristics
  • Biomass
  • bivariate spatial autocorrelation
  • carbon storage
  • carbon trading
  • climatic variables
  • Community assembly
  • desert
  • desert ecosystems
  • desert plant
  • Desert plants
  • dioecy
  • Ebinur Lake watershed
  • ecological stoichiometry
  • elemental concentrations
  • Environmental stress
  • foliar water uptake strategies
  • functional degradation
  • functional diversity
  • functional trait
  • functional traits
  • Google Earth Engine
  • growth forms
  • Haloxylon ammodendron
  • interspecific trait integration
  • intraspecific trait variation
  • InVEST model
  • isohydry
  • Kalidium foliatum
  • leaf wettability
  • microbial community diversity
  • n/a
  • nitrogen addition
  • Photosynthesis
  • Physiological
  • PICRUSt2 function prediction
  • plant leaf chemical traits
  • plant organs
  • plant trait network
  • Populus euphratica
  • salt stress
  • sandy land restoration
  • soil bacterial community
  • soil physicochemical properties
  • soil water and salinity habitats
  • stable carbon isotope
  • thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
  • tree hollow
  • Tugai forest
  • turgor loss point
  • water deficit
  • wet leaves

Links

DOI: 10.3390/books978-3-7258-1187-8

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