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Pearl millet --- Bibliography --- Pearl millet. --- Plant and Crop Sciences. Crops --- Bibliography. --- Cereals --- Sorghum and Millets --- Sorghum and Millets. --- Pearl millet - Bibliography

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This book entitled, The Pearl Millet Genome, is the first comprehensive compilation of deliberations on history, domestication, genetic and genomic resources, traditional breeding, genetic diversity, molecular maps and mapping of important biotic stress as well as nutritional quality traits, whole genome sequencing and comparative genomics, functional genomics, genetic transformation. The economic, nutritional, and health importance of the pearl millet is also discussed. It also presents the input use efficiency and wide adaptation of the crop. Altogether, the book will contain about 200 pages over 10 chapters authored by globally reputed experts on the relevant field in this crop. This book will be useful to the students, teachers, and scientists in the academia and relevant private companies interested in genetics, pathology, molecular genetics and breeding, genetic engineering, structural and functional genomics, and nutritional quality aspects of the crop. This book will also be also useful to seed and pharmaceutical industries.

Botany. --- Genetics. --- Plant biotechnology. --- Agriculture. --- Plant Science. --- Genetics and Genomics. --- Plant Biotechnology. --- Pearl millet --- Breeding.

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Proceedings of the International Consultative Workshop on Panicle Insect Pests of Sorghum and Pearl Millet.

Sorghum --- Millets --- Spikes --- Cecidomyiidae --- Panicum miliaceum --- Pest insects --- Leaf eating insects --- Insect control --- Chemical control --- Biological control --- Cultural control --- Damage --- research --- International cooperation --- Contarinia sorghicola --- Panicle insect pest --- Heliocheilus raghuva albipunctella --- Eurystylus immaculatus --- Earhead caterpillars --- Midge --- Mirid head bug --- Mineuse d'epi --- Punaise des panicules --- Africa --- Asia --- Grain --- Grasses --- Pearl millet --- Diseases and pests.

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Global crop production must substantially increase to meet the needs of a rapidly growing population. This is constrained by the availability of nutrients, water, and land. There is also an urgent need to reduce the negative environmental impacts of crop production. Collectively, these issues represent one of the greatest challenges of the twenty-first century. Sustainable cropping systems based on ecological principles are the core of integrated approaches to solve this critical challenge. This special issue provides an international basis for revealing the underlying mechanisms of sustainable cropping systems to drive agronomic innovations. It includes review and original research articles that report novel scientific findings on improvement in cropping systems related to crop yields and their resistance to biotic and abiotic stressors, resource use efficiency, environmental impact, sustainability, and ecosystem services.

nutrient use efficiency --- organic fertilization --- system approach --- Helianthus annuus L. --- catch crop --- Texas High Plains --- forage yield and quality --- living mulch --- nutrient cycling --- quality --- leguminous cover crop --- conservation --- light --- sustainable crop production --- crop rotation --- WHCNS --- stemborer --- complexity --- perennial --- manure --- maize production --- SOC and STN stocks --- cover crops --- forage pea --- yield --- SDS-PAGE analysis --- vineyard system --- double cropping --- wheat --- partial returns --- soybean --- vetch --- nitrogen use efficiency --- enzyme activities --- agrobiodiversity --- gross margin --- residue C and N release --- systematic review --- maize --- protein crops --- no-tillage --- environmental quality --- fall grazing --- kura clover --- cover crop --- organization --- scenario analyses --- cropping system design --- irrigation --- sustainable yield index --- multiple correspondence analysis (MCA) --- Acidic soil --- Europe --- Zea mais L. --- shade --- up-scaling --- water --- conservation agriculture --- water use efficiency --- Triticum aestivum L. --- forage sorghum --- N use efficiency --- nutrient balance --- organic cropping system --- forage --- durum wheat --- cropping systems --- nitrate --- grain yield --- nitrogen nutrition --- conventionalization --- crop residue incorporation --- cereal rye --- green manure --- straw decomposition --- hierarchical patch dynamics --- N uptake --- farmer’s perception --- pearl millet --- nitrogen --- faba bean --- agroecology --- harvesting strategies --- rice --- gluten fractions --- weed suppression --- economics --- mineral N fertilization --- push-pull technology --- growth --- potato (Solanum tuberosum)

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The agricultural community is face with the challenge of increasing food production by more than 70% to meet demand from the global population increase by the mid-21st century. Sustainable food production involves the sustained availability of resources, such as water and energy, to agriculture. The key challenges to sustainable food production are population increase, increasing demands for food, climate change, climate variability, and decreasing per capita land and water resources. To discuss more details on (a) the challenges for sustainable food production and (b) mitigation options available, a Special Issue on “Water Management for Sustainable Food Production” was assembled. This Special Issue focused on issues such as irrigation using brackish water, virtual water trade, allocation of water resources, consequences of excess precipitation on crop yields, strategies to increase water productivity, rainwater harvesting, irrigation water management, deficit irrigation, fertilization, environmental and socio-economic impacts, and irrigation water quality. The articles in the Special Issue cover several water-related issues across the U.S., Asia, Middle East, Africa, and Pakistan concerning sustainable food production. The articles in this Special Issue highlight the substantial impacts on agricultural production, water availability, and water quality in the face of increasing demands for food and energy.

Research & information: general --- Biology, life sciences --- Technology, engineering, agriculture --- AquaCrop model --- capillary rise --- climate change --- rainfall variability --- supplemental irrigation --- crop growth --- lettuce --- AquaCrop --- water saving --- water productivity --- deficit irrigation --- nitrogen productivity --- fertigation --- drip irrigation --- low-discharge --- arid regions --- Africa --- food security --- system of rice intensification --- water conservation --- climate variability --- water use efficiency --- multi-crop production --- pressure irrigation systems --- water costs --- corn --- soybeans --- maize --- crop-water production function --- West Africa --- spatiotemporal rainfall variability --- tied ridges --- scattered plots --- pearl millet --- yield loss --- crop uptake --- food quality --- geogenic --- emerging contaminants --- nanomaterials --- lysimeter --- canola --- water table --- root distribution --- evapotranspiration --- sustainable irrigation --- bibliometric analysis --- innovation and technology --- unconventional water resources --- delayed transplanting --- seedling age --- seedling density --- wet season --- grain sorghum --- precipitation --- rainfed --- multiple linear regression --- crop yield --- principal component analysis --- water allocation --- WEAP model --- scenario --- Awash River Basin --- sustainability --- agriculture --- virtual water trade --- blue --- green --- arid region --- brackish water --- sub surface drip irrigation (SDI) --- salinity --- sodicity --- olives trees --- excess precipitation --- irrigation water quality --- virtual water --- brackish groundwater --- rainwater harvesting --- socio-economic impacts