Reprint

Plant Adaptation to Extreme Environments in Drylands

Edited by
April 2023
198 pages
  • ISBN978-3-0365-7163-8 (Hardback)
  • ISBN978-3-0365-7162-1 (PDF)

This book is a reprint of the Special Issue Plant Adaptation to Extreme Environments in Drylands that was published in

Biology & Life Sciences
Environmental & Earth Sciences
Summary

Our reprint consists of 13 papers. In the first five papers, the influencing factors of biodiversity and community composition are addressed. In the sixth and seventh papers, the spatial distribution patterns and drivers of arid plants under the background of global climate change are examined. The eighth paper describes leaf stoichiometry in arid zones. The ninth studies the change in carbon allocation depending on plant growth stage and the tenth deals with the use of condensed water by plants. Papers 11-13 look at the relationship between plants and soil.

Format
  • Hardback
License
© by the authors
Keywords
soil aggregates; soil structure; soil properties; plant characteristics; arid desert region; wetlands; Yellow River Delta; soil seed bank; restoration; oil contamination; salinity; Quercus acutissima forest; soil physicochemical properties; community structure; LEfSe analysis; driving factors; desert ecosystem; ecosystem function; growing seasons; soil CO2 emission; spatial variation; Quercus wutaishanica; simple sequence repeats (SSR); point pattern; diameter classes structure; intraspecific association; condensation water; isotope; Halostachys caspica; salinity; moisture migration; desert ecosystems; scale; plant diversity; ecosystem multifunctionality; non-structural carbon; Quercus mongolica; growth-reproduction-storage tradeoffs; xeric timberline; acclimation; desert ecosystem; desert shrubs; halophytes; nutrient stoichiometry; edaphic factors; dryland plant; shared socio-economic pathways; MaxEnt; spatial distribution pattern; barycentre migration; germination percentage; Kalidium; halophytes; pH; ion content; total salt contents; saline soil; temperate forests; nitrogen addition; bacterial community; fungal community; soil microbial community; desert plants; shrub community; biodiversity; climate change; arid region; n/a