| 청구기호 |
QK867 |
| 형태사항 |
1 online resource
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| 언어 |
English |
| 일반주기 |
Includes index.
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| 내용 |
Cover; Title page; Copyright page; Contents; List of Contributors; Editors' Biographies; Preface; Acknowledgments; Chapter 1 -- Molecular and genetic basis of plant macronutrient use efficiency: concepts, opportunities, and challenges; Introduction; Why macronutrients are important for plants?; The role of macronutrients for a sustainable intensification of cropping systems; Availability of nutrients in the soil; Use of fertilizers and nutrient reserves; Macronutrient use efficiency; concepts and importance; Some basic concepts; Components of nutrient use efficiency.
Molecular and genetic basis of use efficiency of phosphate, nitrate, and potassiumMechanisms for nutrient uptake and transport; Regulation of phosphate uptake; PHR1: a master regulator; A finely controlled network of nitrate transporters and sensors; A complex network of potassium transporters and channels; Modulation of the roost system architecture; Plasticity of the root system to phosphate availability; Root architecture responses to nitrate availability; Root architecture responses to potassium availability; Regulation of nutrient assimilation and remobilization.
The central role of PHO1 in phosphate homeostasisNitrate assimilation and mobilization; Potassium homeostasis; Improvement of macronutrient use efficiency; Concluding remarks and future perspectives; References; Chapter 2 -- Role of nutrient-efficient plants for improving crop yields: bridging plant ecology, physiology, and molecular biology; Introduction; Physiology and genetics of nutrient use efficiency; Root development in response to nutrient availability; Root interactions with microorganisms under low nutrient availability; Metabolism and gene regulation.
Remobilization of nutrients in the crop plant life cycleFinding genes for nutrient use efficiency; Future nutrient-efficient crops; Assessment and evaluation of nutrient use efficiency; Ecological approaches of nutrient use efficiency; Crop production-related approaches of nutrient use efficiency; Nutrient balances and budgets, modeling, and life cycle assessments; Conclusions; References; Chapter 3 -- Macronutrient sensing and signaling in plants; Introduction; Plant macronutrient starvation responses; Phosphorus; Nitrogen; Potassium; Calcium; Magnesium; Sulfur.
Sensing of macronutrient limitationsPhosphorus; Nitrogen; Potassium; Calcium; Sulfur; Local and systemic signaling of macronutrient limitations; Phosphorus; Nitrogen; Potassium; Calcium; Magnesium; Sulfur; Conclusion and future perspectives; References; Chapter 4 -- The significance of nutrient interactions for crop yield and nutrient use efficiency; Introduction; Nutrient interactions and crop production; Excess fertilization versus optimal fertilization; Understanding nutrient interactions in plants to improve NUE and decrease environmental footprints; Nutrient interactions in plants.
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| 주제 |
Plants --Nutrition --Molecular aspects.
SCIENCE --Life Sciences --Biochemistry. --bisacsh
Plants --Nutrition --Molecular aspects. --fast --(OCoLC)fst01066064
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| 보유판 및 특별호 저록 |
Print version: Plant macro-nutrient use efficiency. London : Academic Press, 2017 9780128113080 0128113081 , 974699206
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| ISBN |
9780128112946, 0128112948, 9780128113080
, 0128113081
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| QR CODE |
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