Reprint

Emerging Research on Adaptive Plants in Karst Ecosystems

Edited by
August 2023
244 pages
  • ISBN978-3-0365-8663-2 (Hardback)
  • ISBN978-3-0365-8662-5 (PDF)

This is a Reprint of the Special Issue Emerging Research on Adaptive Plants in Karst Ecosystems that was published in

Biology & Life Sciences
Chemistry & Materials Science
Environmental & Earth Sciences
Summary

The global karst distribution area is nearly 22 million km2, accounting for ca. 15% of land area, and the population living in karst areas is approximately one billion. Strong karstification makes the soil environment dry and with high pH and high content of calcium (bicarbonate). The karst environment with a high spatiotemporal heterogeneity seriously affects the growth and development of plants. Faced with these heterogeneous environments, plants have adopted diversified adaptive strategies. This Special Issue is a collection of 15 important research works, which demonstrated some achievements on the physiological and ecological adaption of plants to heterogeneous karst environments, and also explore how to extend the service period of plant resources in karst regions. These works will help to understand the karst-adaptability of plants from multiple perspectives and provide a scientific reference for the selection of karst-adaptable plants and the restoration of vegetation in karst areas. Meanwhile, they will provide theoretical support for organic integration towards economic, social and environmental sustainability of karst areas, and the beautiful vision of "green water and green mountains are golden mountains and silver mountains". In the future, we look forward to more emerging research on adaptive plants in the karst ecosystem, which will serve better in maintaining ecosystems (carbon neutral), ensuring food supply and promoting sustainable social development.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
arbuscular mycorrhizal fungi; karst; patch and substrate heterogeneity; root morphology; nutrients uptake; age; Zanthoxylum planispinum var. dintanensis; leaf-litter-soil continuum; carbon and nitrogen stable isotope; soil stoichiometry; rocky desertification area; angiosperm; gymnosperm; interspecific competition; water stress; stable isotopic; golden Camellia species; karst plant; calcareous soils; acid soils; plant nutrition; adaptability; Zanthoxylum planispinum var. dintanensis; allocations; plantations; stoichiometry; soil microorganisms; soil extracellular enzymes; internal stability; aboveground vegetation; soil seed bank; soil property; human intervention; karst; karst; plantation age; stoichiometry; redundancy analysis; suitable strategy; adaptation; bidirectional nitrogen isotope; inorganic carbon assimilation; nitrogen utilization; karst habitat; bicarbonate use; carbon sequestration; carbonic anhydrase; karst; karst-adaptable plants; photosynthesis; soil dissolved inorganic carbon; photosynthesis; water-soluble organic matter; stable isotope; contribution; electrophysiology; stomatal conductance; water-use efficiency; chlorophyll fluorescence; adaptability; blueberry; 1-MCP; cell wall polysaccharide; shelf life; karst fruit; lignification; browning; physiological metabolism; senescence mechanism; karst mountainous area; karst; artificial forest; nitrate; isotope mass balance approach; assimilatory demand; dissolved inorganic carbon; karst; Coix seed rice; electrical signal; substance transport; n/a