Short Rotation Woody Crop Production Systems for Ecosystem Services and Phytotechnologies

doi:10.3390/books978-3-03921-510-2

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Short Rotation Woody Crop Production Systems for Ecosystem Services and Phytotechnologies

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December 2019

316 pages

ISBN978-3-03921-509-6 (Paperback)
ISBN978-3-03921-510-2 (PDF)

https://doi.org/10.3390/books978-3-03921-510-2

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This book is a reprint of the Special Issue Short Rotation Woody Crop Production Systems for Ecosystem Services and Phytotechnologies that was published in

Biology & Life Sciences

Environmental & Earth Sciences

Summary

While international efforts in the development of short rotation woody crops (SRWCs) have historically focused on the production of biomass for bioenergy, biofuels, and bioproducts, research and deployment over the past decade has expanded to include broader objectives of achieving multiple ecosystem services. In particular, silvicultural prescriptions developed for SRWCs have been refined to include woody crop production systems for environmental benefits such as carbon sequestration, water quality and quantity, and soil health. In addition, current systems have been expanded beyond traditional fiber production to other environmental technologies that incorporate SRWCs as vital components for phytotechnologies, urban afforestation, ecological restoration, and mine reclamation. In this Special Issue of the journal Forests, we explore the broad range of current research dedicated to our topic: International Short Rotation Woody Crop Production Systems for Ecosystem Services and Phytotechnologies

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Keywords

acidic soil; foliar nutrient and metal concentration; Salix; site reclamation; species variation; aboveground biomass; bioenergy; leaf area index; Populus; mycorrhizal fungi; willow; inoculation; agricultural field experiment; rhizospheric soil; spacing trial; stocking level; carbon sequestration; allocation; ecosystem services; abandoned farmland; Populus canadensis × Populus maximowiczii; southern Québec (Eastern Canada); short-rotation woody crops; intraspecific competition; Salix; SRC; biomass; willow cultivars; environmental conditions; clone selection; cutting size; cutting sprouting; production; short rotation coppice; willow; woody bioenergy crop; social acceptance; short rotation coppice; bioeconomy; biorefinery; land-use; agriculture; crop adoption; wastewater; floodplain; Populus L.; Salix L.; biomass production; bioenergy; tree breeding; ecosystem services; environmental technologies; phyto-technologies; ecological restoration; production systems; n/a; phytoremediation; hybrids; health; biomass production; phytotechnologies; biomass allocation; land marginality; Populus; physiographic provinces; soil preparation; topography; wood biomass productivity; wood composition and properties; balsam poplar; disparate populations; hybrid vigour; plant physiology; Eucalyptus; short rotation woody crops; Florida; biochar; bioproducts; willow; poplar; wood chips; ash; LHV; HHV; storage; bioenergy; hybrid poplar; genetic improvement; clonal propagation; biofuels; renewable energy; Populus tremula; heterosis; growth rate; cellulosic pulp; paper properties; coarse root; fine root; cutting; silt; sand; stone; Salix nigra L.; agroforestry; metal uptake; phytoremediation; phytotechnologies; Populus; salt uptake