TY - BOOK ID - 145245967 TI - Innovations and Perspectives of Industrial and Bioenergy Crops for Bioeconomy Development PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - harvesting KW - work productivity KW - supply chain KW - harvesting efficiency KW - Salix KW - genoype × site interaction KW - survivability KW - biometric features KW - plant height KW - fresh biomass yield KW - dry biomass yield KW - Miscanthus KW - nitrogen fertilization KW - rhizomes KW - stem KW - leaves KW - consumer choices KW - eucalyptus KW - firewood KW - Italy KW - multilevel logistic regression model KW - willingness to consume KW - tobacco biomass KW - energy yield KW - higher heating value KW - biogas potential KW - Nicotiana tabacum KW - energy crops KW - planting density KW - calorific value KW - SRC KW - hulled wheat species KW - energy KW - life cycle assessment KW - Tenebrio molitor KW - edible insects KW - larval development KW - feed conversion ratio KW - agricultural and industrial residues KW - lignocellulosic biomass KW - bioconversion KW - agroforestry KW - biodiversity KW - bioeconomy KW - biomass supply KW - circular economy KW - organic farming KW - perennial crops KW - quarry KW - syntropy KW - vegetation restoration KW - willow KW - varieties KW - yield KW - marginal soil KW - biological diversity KW - marginal land KW - cup plant KW - perennial energy crop KW - energy expenses KW - biogas KW - biomass yield KW - willow SRC KW - energy plants KW - ground beetles KW - Carabidae KW - ecosystem services KW - invertebrate biodiversity KW - willow-leaf sunflower KW - Jerusalem artichoke KW - supercritical extraction KW - water as co-solvent KW - antimicrobial activity KW - biocidal effect KW - bioenergy crop KW - groundwater KW - growth KW - invasive potential KW - reproductive potential KW - Silphium perfoliatum KW - soil moisture KW - water table distance KW - energy biomass KW - yields KW - invasive behavior KW - economics KW - common osier KW - fertilization KW - dry matter yield KW - soil chemical parameters KW - soil bulk density KW - water-stable aggregates KW - soil microbial carbon KW - willow browse KW - soluble carbohydrates KW - browsing damage KW - cervids KW - gas chromatography KW - aboveground KW - belowground part of Miscanthus × giganteus KW - ash KW - potassium KW - calcium KW - sulphur content KW - uptake KW - bioproduction KW - CAP payments KW - sustainable agriculture KW - Poland KW - unutilized agricultural areas (uUAA) KW - abandoned areas KW - land use and land-use change KW - carbon sequestration KW - soil properties (physical and chemical) KW - polyphenols KW - supercritical CO2 extraction KW - perennial industrial crops KW - antioxidant activity KW - silvergrass KW - willowleaf sunflower KW - prairie cordgrass KW - harvesting KW - work productivity KW - supply chain KW - harvesting efficiency KW - Salix KW - genoype × site interaction KW - survivability KW - biometric features KW - plant height KW - fresh biomass yield KW - dry biomass yield KW - Miscanthus KW - nitrogen fertilization KW - rhizomes KW - stem KW - leaves KW - consumer choices KW - eucalyptus KW - firewood KW - Italy KW - multilevel logistic regression model KW - willingness to consume KW - tobacco biomass KW - energy yield KW - higher heating value KW - biogas potential KW - Nicotiana tabacum KW - energy crops KW - planting density KW - calorific value KW - SRC KW - hulled wheat species KW - energy KW - life cycle assessment KW - Tenebrio molitor KW - edible insects KW - larval development KW - feed conversion ratio KW - agricultural and industrial residues KW - lignocellulosic biomass KW - bioconversion KW - agroforestry KW - biodiversity KW - bioeconomy KW - biomass supply KW - circular economy KW - organic farming KW - perennial crops KW - quarry KW - syntropy KW - vegetation restoration KW - willow KW - varieties KW - yield KW - marginal soil KW - biological diversity KW - marginal land KW - cup plant KW - perennial energy crop KW - energy expenses KW - biogas KW - biomass yield KW - willow SRC KW - energy plants KW - ground beetles KW - Carabidae KW - ecosystem services KW - invertebrate biodiversity KW - willow-leaf sunflower KW - Jerusalem artichoke KW - supercritical extraction KW - water as co-solvent KW - antimicrobial activity KW - biocidal effect KW - bioenergy crop KW - groundwater KW - growth KW - invasive potential KW - reproductive potential KW - Silphium perfoliatum KW - soil moisture KW - water table distance KW - energy biomass KW - yields KW - invasive behavior KW - economics KW - common osier KW - fertilization KW - dry matter yield KW - soil chemical parameters KW - soil bulk density KW - water-stable aggregates KW - soil microbial carbon KW - willow browse KW - soluble carbohydrates KW - browsing damage KW - cervids KW - gas chromatography KW - aboveground KW - belowground part of Miscanthus × giganteus KW - ash KW - potassium KW - calcium KW - sulphur content KW - uptake KW - bioproduction KW - CAP payments KW - sustainable agriculture KW - Poland KW - unutilized agricultural areas (uUAA) KW - abandoned areas KW - land use and land-use change KW - carbon sequestration KW - soil properties (physical and chemical) KW - polyphenols KW - supercritical CO2 extraction KW - perennial industrial crops KW - antioxidant activity KW - silvergrass KW - willowleaf sunflower KW - prairie cordgrass UR - https://www.unicat.be/uniCat?func=search&query=sysid:145245967 AB - The production of industrial and bioenergy crops has been the subject of scientific research for many years; however, the implementation of previously proposed solutions for commercial production is still at an early stage. It should be emphasized that when developing the production of industrial and bioenergy crops on agricultural lands, it is important to avoid land-use competition with the production of food and feed. It is well justified, for initiating the sustainable production of industrial and bioenergy crops, to promote efficient species for growing on marginal lands, which are unsuitable or less suitable for food or feed production. Another important point is that industrial and bioenergy crops should include nonfood and nonfeed crops and generate agricultural products categorized as commodities and/or raw materials for industrial goods and bioenergy. These industrial and bioenergy crops can become an important source of biomass. Of course, the concept of their cultivation for nonfood (and/or nonfeed) uses is not new but, despite considerable investment in research and development, little progress has been made with regard to the introduction of such crops and their products into the market. Therefore, the papers focus on innovations and perspectives regarding sustainable industrial and bioenergy crops production, logistic chains, biomass quality, utilization and cascade biomass use for bioeconomy, socio-economic and energy analyses, etc. ER -