Nitrogen Deficiency Limited the Improvement of Photosynthesis in Maize by Elevated CO2 Under Drought

被引：0

作者：

ZONG Yu-zheng ^{[1
,2
]}

SHANGGUAN Zhou-ping ^{[1
]}

机构：

[1] National Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau,Institute of Soil and Water Conservation,Chinese Academy of Sciences

[2] University of Chinese Academy of Sciences

来源：

JournalofIntegrativeAgriculture | 2014年 / 13卷 / 01期

基金：

中国国家自然科学基金;

关键词：

drought; elevated CO2; N deficiency; photosynthesis;

D O I：

暂无

中图分类号：

S513 [玉米（玉蜀黍）];

学科分类号：

0901 ;

摘要：

Global environmental change affects plant physiological and ecosystem processes.The interaction of elevated CO2,drought and nitrogen(N) deficiency result in complex responses of C4 species photosynthetic process that challenge our current understanding.An experiment of maize(Zea mays L.) involving CO2 concentrations(380 or 750 μmol mol-1,climate chamber),osmotic stresses(10% PEG-6000,-0.32 MPa) and nitrogen constraints(N deficiency treated since the 144th drought hour) was carried out to investigate its photosynthesis capacity and leaf nitrogen use efficiency.Elevated CO2 could alleviate drought-induced photosynthetic limitation through increasing capacity of PEPC carboxylation(V pmax) and decreasing stomatal limitations(SL).The N deficiency exacerbated drought-induced photosynthesis limitations in ambient CO2.Elevated CO2 partially alleviated the limitation induced by drought and N deficiency through improving the capacity of Rubisco carboxylation(V max) and decreasing SL.Plants with N deficiency transported more N to their leaves at elevated CO2,leading to a high photosynthetic nitrogen-use efficiency but low whole-plant nitrogen-use efficiency.The stress mitigation by elevated CO2 under N deficiency conditions was not enough to improving plant N use efficiency and biomass accumulation.The study demonstrated that elevated CO2 could alleviate drought-induced photosynthesis limitation,but the alleviation varied with N supplies.

引用

页码：73 / 81

页数：9

共 15 条

[1] A leaf gas exchange model that accounts for intra‐canopy variability by considering leaf nitrogen content and local acclimation to radiation in grapevine （ Vitis vinifera L.）[J] . JORGE A. PRIETO,GA?TAN LOUARN,JORGE PEREZ PE?A,HERNáN OJEDA,THIERRY SIMONNEAU,ERIC LEBON.Plant, Cell ＆ Environment . 2012 (7)
[2] Elevated CO2 increases water use efficiency by sustaining photosynthesis of water-limited maize and sorghum
Allen, Leon Hartwell, Jr.
Kakani, Vijaya Gopal
Vu, Joseph C. V.
Boote, Kenneth J.
[J]. JOURNAL OF PLANT PHYSIOLOGY, 2011, 168 (16) : 1909 - 1918
[3] Interactive effects of drought, elevated CO 2 and warming on photosynthetic capacity and photosystem performance in temperate heath plants[J] . Kristian Rost Albert,Teis N. Mikkelsen,Anders Michelsen,Helge Ro-Poulsen,Leon van der Linden.Journal of Plant Physiology . 2011 (13)
[4] New insight into photosynthetic acclimation to elevated CO 2 : The role of leaf nitrogen and ribulose-1,5-bisphosphate carboxylase/oxygenase content in rice leaves[J] . Saman Seneweera,Amane Makino,Naoki Hirotsu,Robert Norton,Yuji Suzuki.Environmental and Experimental Botany . 2010 (2)
[5] Influence of water stress on photosynthetic characteristics in barley plants under ambient and elevated CO＜Subscript＞2＜/Subscript＞ concentrations[J] . A. Robredo,U. Pérez-López,M. Lacuesta,A. Mena-Petite,A. Mu?oz-Rueda.Biologia Plantarum . 2010 (2)
[6] Photosynthetic capacity of field-grown durum wheat under different N availabilities: A comparative study from leaf to canopy[J] . Environmental and Experimental Botany . 2009 (1)
[7] Rising atmospheric carbon dioxide concentration and the future of C＜sub＞4＜/sub＞ crops for food and fuel[J] . Leakey Andrew D.B..Proceedings of The Royal Society B . 2009 (1666)
[8] Growth at elevated CO 2 delays the adverse effects of drought stress on leaf photosynthesis of the C 4 sugarcane[J] . Joseph C.V. Vu,Leon H. Allen.Journal of Plant Physiology . 2008 (2)
[9] Carbon-Nitrogen Interactions in Terrestrial Ecosystems in Response to Rising Atmospheric Carbon Dioxide[J] . Peter B. Reich,Bruce A. Hungate,Yiqi Luo.Annual Review of Ecology, Evolution, and Systematics . 2006
[10] Phosphorus availability and elevated CO＜sub＞2＜/sub＞ affect biological nitrogen fixation and nutrient fluxes in a clover‐dominated sward[J] . Everard J.Edwards,StephanieMcCaffery,John R.Evans.New Phytologist . 2005 (1)

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