Related references
Note: Only part of the references are listed.Biofortification: A new approach to eradicate hidden hunger
Priyanka Sharma et al.
FOOD REVIEWS INTERNATIONAL (2017)
High phosphorus supply reduced zinc concentration of wheat in native soil but not in autoclaved soil or nutrient solution
Emir Ali Ova et al.
PLANT AND SOIL (2015)
Biofortification: A New Tool to Reduce Micronutrient Malnutrition
Howarth E. Bouis et al.
IMPROVING DIETS AND NUTRITION: FOOD-BASED APPROACHES (2014)
Biofortification strategies to increase grain zinc and iron concentrations in wheat
G. Velu et al.
JOURNAL OF CEREAL SCIENCE (2014)
Producing more grain with lower environmental costs
Xinping Chen et al.
NATURE (2014)
Increasing CO2 threatens human nutrition
Samuel S. Myers et al.
NATURE (2014)
Constraints and potentials of future irrigation water availability on agricultural production under climate change
Joshua Elliott et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2014)
Historical changes in grain yield and quality of spring wheat varieties cultivated in Siberia from 1900 to 2010
Alexey I. Morgounov et al.
CANADIAN JOURNAL OF PLANT SCIENCE (2013)
Using membrane transporters to improve crops for sustainable food production
Julian I. Schroeder et al.
NATURE (2013)
Climate Change Impacts on Global Food Security
Tim Wheeler et al.
SCIENCE (2013)
Human Zinc Deficiency: Discovery to Initial Translation
Harold H. Sandstead
ADVANCES IN NUTRITION (2013)
Biofortification of wheat with zinc through zinc fertilization in seven countries
C. Q. Zou et al.
PLANT AND SOIL (2012)
The reduction in zinc concentration of wheat grain upon increased phosphorus-fertilization and its mitigation by foliar zinc application
Yue-Qiang Zhang et al.
PLANT AND SOIL (2012)
Grain and shoot zinc accumulation in winter wheat affected by nitrogen management
Yan-Fang Xue et al.
PLANT AND SOIL (2012)
Improved nitrogen nutrition enhances root uptake, root-to-shoot translocation and remobilization of zinc (65Zn) in wheat
Emin Bulent Erenoglu et al.
NEW PHYTOLOGIST (2011)
Integrated soil and plant phosphorus management for crop and environment in China. A review
H. Li et al.
PLANT AND SOIL (2011)
Agronomic phosphorus imbalances across the world's croplands
Graham K. MacDonald et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2011)
Global food demand and the sustainable intensification of agriculture
David Tilman et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2011)
Biofortification: A new tool to reduce micronutrient malnutrition
Howarth E. Bouis et al.
FOOD AND NUTRITION BULLETIN (2011)
Biofortification and Localization of Zinc in Wheat Grain
I. Cakmak et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2010)
Global impacts of human mineral malnutrition
Alexander J. Stein
PLANT AND SOIL (2010)
Variation in mineral micronutrient concentrations in grain of wheat lines of diverse origin
F. J. Zhao et al.
JOURNAL OF CEREAL SCIENCE (2009)
Nutrient Imbalances in Agricultural Development
P. M. Vitousek et al.
SCIENCE (2009)
Enrichment of cereal grains with zinc: Agronomic or genetic biofortification?
Ismail Cakmak
PLANT AND SOIL (2008)
A NAC gene regulating senescence improves grain protein, zinc, and iron content in wheat
Cristobal Uauy et al.
SCIENCE (2006)
Genotypic and spike positional difference in grain phytase activity, phytate, inorganic phosphorus, iron, and zinc contents in wheat (Triticum aestivum L.)
Z. H. Liu et al.
JOURNAL OF CEREAL SCIENCE (2006)
Synchronizing N supply from soil and fertilizer and N demand of winter wheat by an improved Nmin method
X. Chen et al.
NUTRIENT CYCLING IN AGROECOSYSTEMS (2006)
Triticum dicoccoides:: An important genetic resource for increasing zinc and iron concentration in modern cultivated wheat
I Cakmak et al.
SOIL SCIENCE AND PLANT NUTRITION (2004)
Assessing the impact of the Green Revolution, 1960 to 2000
RE Evenson et al.
SCIENCE (2003)
Share Paper
