A possible mechanism of mineral responses to elevated atmospheric CO2 in rice grains

  title={A possible mechanism of mineral responses to elevated atmospheric CO2 in rice grains},
  author={Jia Guo and Mingqian Zhang and Xiaowen Wang and Weijian Zhang},
  journal={Journal of Integrative Agriculture},
Changes in microelement availability in a paddy field exposed to long-term atmospheric CO2 enrichment
The stimulations of plant growth and soil nutrient availability by elevated carbon dioxide (CO2) concentration have been demonstrated in a series of experiments. However, the long-term response of
Influence of elevated atmospheric CO2 and temperature on microelement accumulation in rice.
Influence of elevated atmospheric CO2 and temperature on microelement accumulation in rice LI Chun-hua1,2, ZENG Qing1, SHA Lin-nan3, ZHANG Ji-shuang1,2, ZHU Jian-guo1*, LIU Gang1 (1.State Key
Modification of storage proteins in the barley grain increases endosperm zinc and iron under both normal and elevated atmospheric CO2
Modification of grain storage proteins may improve the nutritional value of cereal grain with respect to Zn and Fe under both normal and future conditions of elevated atmospheric CO2.
The effects of elevated atmospheric carbon dioxide [CO2] on micronutrient concentration, specifically iron (Fe) and zinc (Zn) in rice; a systematic review
Abstract Atmospheric carbon dioxide (CO2) levels have reached an all-time high, contributing to increased average temperature, more frequent and severe weather patterns, increasing sea levels, and
Effects of free-air CO2 enrichment (FACE) and nitrogen (N) supply on N uptake and utilization of indica and japonica cultivars (Oryza sativa L.)
Among all treatments, IIY084 had the highest N accumulation and allocation in panicles under elevated [CO2] in combination with N fertilizer at maturity, and is suggested to have a considerable prospect for its grain yield and quality under future elevated atmospheric [ CO2].
Preserving the nutritional quality of crop plants under a changing climate: importance and strategies
The development of future interventions to ensure that the world's population has access to plentiful, safe and nutritious food may need to rely on breeding for nutrients under the context of climate change, including legumes in cropping systems, better farm management practices and utilization of microbial inoculants that enhance nutrient availability.


Soil and crop management technologies for enhancing rice production under micronutrient constraints
Micronutrient deficiency is considered as one of the major causes of the declining productivity trends observed in ricegrowing countries. The submergence created for rice cultivation influences
Will elevated CO2 enhance mineral bioavailability in wetland ecosystems? Evidence from a rice ecosystem
Background and aimsMineral cycling plays a critical role in wetland ecosystem functions and can be affected by environmental changes, such as CO2 enrichment. Learning the responses of mineral
Rhizosphere feedbacks in elevated CO(2).
  • W. Cheng
  • Environmental Science
    Tree physiology
  • 1999
A microbial growth model is developed that quantitatively links the increased rhizosphere input in response to elevated CO(2) with soil organic matter decomposition and nutrient mineralization.
Atmospheric CO2 enrichment facilitates cation release from soil.
Evidence for a novel mechanism of CO(2)-enhancement of cation release from soil in rice agricultural systems is presented and results indicate that over the short term, elevatedCO(2) may stimulate cationRelease from soil and enhance plant growth.
Seasonal changes in the effects of free‐air CO2 enrichment (FACE) on growth, morphology and physiology of rice root at three levels of nitrogen fertilization
Over time, the relative effects of elevated [CO2] on the aboveground photosynthesis, growth and development of rice (Oryza sativa L.) are likely to be changed with increasing duration of CO2