Reprint

Herbaceous Field Crops Cultivation

Edited by
December 2021
438 pages
  • ISBN978-3-0365-2535-8 (Hardback)
  • ISBN978-3-0365-2534-1 (PDF)

This book is a reprint of the Special Issue Herbaceous Field Crops Cultivation that was published in

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

Herbaceous field crops include several hundred plant species worldly widespread for different end-uses, from food to no-food applications. Among them are included cereals, grain legumes, sugar beet, potato, cotton, tobacco, sunflower, safflower, rape, flax, soybean, alfalfa, clover spp. and other fodder crops, but only 15–20 species play a relevant role for the worldly global economy. Nowadays, to meet the food demand of the ever-increasing world population in a scenario of decreased arable lands, the development of holistic agricultural management approaches to boost contemporaneously yield and quality of herbaceous field crops is essential. Accordingly, this book represents an up-to-date collection of the current understanding of the impact of several agricultural management factors (i.e., genetic selection, planting density and arrangement, fertilization, irrigation, weed control and harvest time) on the yield and qualitative performances of 11 field crops (wheat, cardoon, potato, clary sage, basil, sugarcane, canola, cotton, tomato, lettuce and hemp). On the whole, the topics covered in this book will ensure students and academic readers, such as plant physiologists, environmental scientists, biotechnologists, botanists, soil chemists and agronomists, to get the information about the recent research advances on the eco-sustainable management cultivation of herbaceous field crops, with a particular focus on varietal development, soil nutrient and water management, weed control, etc.

Format
  • Hardback
License
© by the authors
Keywords
planting density; fertilization; the central composite design; fiber yield; analog optimization; potato; nitrogen fertilization; environmental sustainability; cost-effective; nitrogen use efficiency; tuber yield; EONFR; growth; specific leaf nitrogen; nitrogen use efficiency; critical nitrogen uptake; cotton; dry matter yield; root growth; root physiology; water productivity; nitrogen productivity; drip irrigation quota; cotton; lint yield; water productivity; biomass; leaf chlorophyll fluorescence; fiber yield; leaf gas exchange; leaf structure; drought tolerance; dry weight yield; essential oil content; leaf area index; Ocimum basilicum; cotton; potassium; fertilizer; biomass accumulation; fiber quality; organic farming system; yield; pH; soluble solid content; Bostwick viscosity; cotton; phosphorus sensitivity; phosphorus; reproductive organ biomass; nutrients accumulation; yield; cotton; plant density; biomass accumulation; yield; fiber quality; potato; nitrogen fertilization rate; photosynthesis rate; SPAD readings; tuber yield; nitrogen efficiency indices; tuber nutritional composition; cereal crops; plant water extracts; bioherbicides; weed management; allelopathy; dual purpose canola; nitrogen fertilizer; planting density; oil content; grazing; sustainable agriculture; integrated weed management; yield losses; preventive weed control; mechanical weed control; physical weed control; biological weed control; herbicides; allelopathy; hybrids; wheat; weeds; competition; genetic gain; genomic selection; quantitative genetics; sugarcane breeding; pit plantation; planting patterns; ratoon crop; sowing techniques; sugarcane yield; quality; seasonal variation; fatty acids; free sugars; chemical composition; Cynara cardunculus L.; cardoon; organic acids; clary sage; essential oil; aromatic plant species; biometric and agronomic characteristics; arbuscular mycorrhizal fungi; potato; organic farming; fertilization; calcareous soils; crop physiology; tuber yield; sustainability; diatomaceous earth; monosilicic acid; Si application method; soil water conditions; wheat cultivar; seasonal variation; chemical composition; free sugars; tocopherols; Cynara cardunculus L.; lipidic fraction; fatty acids; organic acids; companion plants; N-fertilization; partial land equivalent ratio (PLER); weed control; grain quality; productivity; n/a