Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications

Many agricultural crops worldwide suffer from zinc (Zn) deficiency. Despite widespread interest in Zn, plant professionals often lack current information on this indispensable essential mineral nutrient. G. Hacisalihoglu, PhD, in Unraveling the Mechanisms of Zinc Efficiency in Crop Plants, and a hos...

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description Many agricultural crops worldwide suffer from zinc (Zn) deficiency. Despite widespread interest in Zn, plant professionals often lack current information on this indispensable essential mineral nutrient. G. Hacisalihoglu, PhD, in Unraveling the Mechanisms of Zinc Efficiency in Crop Plants, and a host of recognized experts address this gap with the up-to-date importance of Zn nutrition. This book examines research aimed at understanding how plants uptake and utilize Zn. It has been peer-reviewed and multi-authored by expert plant biology scientists with related expertise. The editor provides a comprehensive overview of zinc (Zn) nutrition in plants, seeds, roots, and soil, which renders this book a good reference for plant biology professionals. Agricultural sustainability in the time of the growing world population will be one of the major challenges in the next 30 plus years. Zn is one of the most important essential mineral nutrients required for metabolic processes, so a shortage of Zn constrains crop yield and quality worldwide. Zinc efficiency and higher growth and yield under low Zn supply make it a promising sustainable solution for developing cultivars that are zinc efficient. Several articles are included in this book that provide an overview of current developments and trends in the times of high-throughput genomics and phenomics data analysis. Furthermore, this book presents research findings in various experimental models and areas ranging from maize to alfalfa, flax, and sorghum.Unraveling the Mechanisms of Zinc Efficiency in Crop Plants is a must read for researchers and plant biology professionals.
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language eng
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-811072024-03-28T03:31:19Z Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications Hacisalihoglu, Gokhan zinc sustainability food security seed quality zinc efficiency staple foods crops functional genomics homeostasis hormonal regulation iron maize malnutrition photosynthesis Adsorption desorption landscape position isotherm plant available Zn bioindication bryophytes moss cell shape particulate matter biofortification micronutrients nutrient uptake plant nutrition ZIP transporters nicotianamine metal tolerance protein (MTP) yellow stripe-like protein (YSL) zinc-induced facilitators (ZIF) heavy metal transporters (HMA) sodium selenate zinc sulfate cereal rainfed conditions forage yield 65Zn soil soil solution barley lability specific activity potential buffer capacity forms labile zinc pool silicon Zn-deficiency Zn-sufficiency Zn re-fertilization n/a nutrient dense superfood multi minerals health benefits gluten free percent daily value elevated CO2 thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general thema EDItEUR::P Mathematics and Science::PS Biology, life sciences thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes Many agricultural crops worldwide suffer from zinc (Zn) deficiency. Despite widespread interest in Zn, plant professionals often lack current information on this indispensable essential mineral nutrient. G. Hacisalihoglu, PhD, in Unraveling the Mechanisms of Zinc Efficiency in Crop Plants, and a host of recognized experts address this gap with the up-to-date importance of Zn nutrition. This book examines research aimed at understanding how plants uptake and utilize Zn. It has been peer-reviewed and multi-authored by expert plant biology scientists with related expertise. The editor provides a comprehensive overview of zinc (Zn) nutrition in plants, seeds, roots, and soil, which renders this book a good reference for plant biology professionals. Agricultural sustainability in the time of the growing world population will be one of the major challenges in the next 30 plus years. Zn is one of the most important essential mineral nutrients required for metabolic processes, so a shortage of Zn constrains crop yield and quality worldwide. Zinc efficiency and higher growth and yield under low Zn supply make it a promising sustainable solution for developing cultivars that are zinc efficient. Several articles are included in this book that provide an overview of current developments and trends in the times of high-throughput genomics and phenomics data analysis. Furthermore, this book presents research findings in various experimental models and areas ranging from maize to alfalfa, flax, and sorghum.Unraveling the Mechanisms of Zinc Efficiency in Crop Plants is a must read for researchers and plant biology professionals. 2022-05-06T11:28:09Z 2022-05-06T11:28:09Z 2022 book ONIX_20220506_9783036534275_173 9783036534275 9783036534282 https://directory.doabooks.org/handle/20.500.12854/81107 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/5136 https://mdpi.com/books/pdfview/book/5136 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-3428-2 10.3390/books978-3-0365-3428-2 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036534275 9783036534282 192 Basel open access
spellingShingle zinc
sustainability
food security
seed quality
zinc efficiency
staple foods
crops
functional genomics
homeostasis
hormonal regulation
iron
maize
malnutrition
photosynthesis
Adsorption
desorption
landscape position
isotherm
plant available Zn
bioindication
bryophytes
moss
cell shape
particulate matter
biofortification
micronutrients
nutrient uptake
plant nutrition
ZIP transporters
nicotianamine
metal tolerance protein (MTP)
yellow stripe-like protein (YSL)
zinc-induced facilitators (ZIF)
heavy metal transporters (HMA)
sodium selenate
zinc sulfate
cereal
rainfed conditions
forage yield
65Zn
soil
soil solution
barley
lability
specific activity
potential buffer capacity
forms
labile zinc pool
silicon
Zn-deficiency
Zn-sufficiency
Zn re-fertilization
n/a
nutrient dense
superfood
multi minerals
health benefits
gluten free
percent daily value
elevated CO2
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title_full Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title_fullStr Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title_full_unstemmed Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title_short Unraveling the Mechanisms of Zn Efficiency in Crop Plants: From Lab to Field Applications
title_sort unraveling the mechanisms of zn efficiency in crop plants from lab to field applications
topic zinc
sustainability
food security
seed quality
zinc efficiency
staple foods
crops
functional genomics
homeostasis
hormonal regulation
iron
maize
malnutrition
photosynthesis
Adsorption
desorption
landscape position
isotherm
plant available Zn
bioindication
bryophytes
moss
cell shape
particulate matter
biofortification
micronutrients
nutrient uptake
plant nutrition
ZIP transporters
nicotianamine
metal tolerance protein (MTP)
yellow stripe-like protein (YSL)
zinc-induced facilitators (ZIF)
heavy metal transporters (HMA)
sodium selenate
zinc sulfate
cereal
rainfed conditions
forage yield
65Zn
soil
soil solution
barley
lability
specific activity
potential buffer capacity
forms
labile zinc pool
silicon
Zn-deficiency
Zn-sufficiency
Zn re-fertilization
n/a
nutrient dense
superfood
multi minerals
health benefits
gluten free
percent daily value
elevated CO2
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
topic_facet zinc
sustainability
food security
seed quality
zinc efficiency
staple foods
crops
functional genomics
homeostasis
hormonal regulation
iron
maize
malnutrition
photosynthesis
Adsorption
desorption
landscape position
isotherm
plant available Zn
bioindication
bryophytes
moss
cell shape
particulate matter
biofortification
micronutrients
nutrient uptake
plant nutrition
ZIP transporters
nicotianamine
metal tolerance protein (MTP)
yellow stripe-like protein (YSL)
zinc-induced facilitators (ZIF)
heavy metal transporters (HMA)
sodium selenate
zinc sulfate
cereal
rainfed conditions
forage yield
65Zn
soil
soil solution
barley
lability
specific activity
potential buffer capacity
forms
labile zinc pool
silicon
Zn-deficiency
Zn-sufficiency
Zn re-fertilization
n/a
nutrient dense
superfood
multi minerals
health benefits
gluten free
percent daily value
elevated CO2
thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
url ONIX_20220506_9783036534275_173