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Responses of Aerobic Rice (Oryza sativa L.) to Iron Deficiency 被引量:1

Responses of aerobic rice (Oryza sativa L.) to iron deficiency
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摘要 Aerobic rice has the advantage of saving water. Most published work has focused on improving its yield, while few reported on its micronutrient status. In fact, Fe deficiency is a common nutritional problem in the production of aerobic rice. Short- term hydroponic culture experiments were conducted to study the response of aerobic rice to Fe deficiency and the effect of root exudates from Fe-deficient wheat on its Fe uptake ability. The results indicate that the amount of phytosiderophores (PS) released from aerobic rice did not increase under Fe deficient conditions. The Fe(III) reducing capacity of Fe-deficient aerobic rice did not increase and the solution pH did not decrease significantly. What's more, no obvious swelling was observed in the root tips. Aerobic rice did not show special responses to improve their Fe nutrition under Fe deficiency as both strategy I and II plants though they were very sensitive to Fe deficiency. This may be a reason which causes Fe deficiency problem in aerobic rice. However, root exudates from Fe-deficient wheat (PSw) could improve its Fe nutrition in the presence of insoluble Fe(OH)3. This suggests that aerobic rice could utilize Fe activated by PSw. Aerobic rice has the advantage of saving water. Most published work has focused on improving its yield, while few reported on its micronutrient status. In fact, Fe deficiency is a common nutritional problem in the production of aerobic rice. Short- term hydroponic culture experiments were conducted to study the response of aerobic rice to Fe deficiency and the effect of root exudates from Fe-deficient wheat on its Fe uptake ability. The results indicate that the amount of phytosiderophores (PS) released from aerobic rice did not increase under Fe deficient conditions. The Fe(III) reducing capacity of Fe-deficient aerobic rice did not increase and the solution pH did not decrease significantly. What's more, no obvious swelling was observed in the root tips. Aerobic rice did not show special responses to improve their Fe nutrition under Fe deficiency as both strategy I and II plants though they were very sensitive to Fe deficiency. This may be a reason which causes Fe deficiency problem in aerobic rice. However, root exudates from Fe-deficient wheat (PSw) could improve its Fe nutrition in the presence of insoluble Fe(OH)3. This suggests that aerobic rice could utilize Fe activated by PSw.
作者 SHI Rong-li HAO Hong-mei FAN Xiao-yun Md Rezaul Karim ZHANG Fu-SUO ZOU Chun-qin
机构地区 Key Laboratory of Plant-Soil Interaction
出处 《Journal of Integrative Agriculture》 SCIE CSCD 2012年第6期938-945,共8页 农业科学学报(英文版)
基金 supported by National Basic Research Program of China (973 Program, 2009CB118605) the National Natural Science Foundation of China (30571106) the Innovative Group Grant of Natural Science Foundation of China (30821003)
关键词 aerobic rice Fe(III)-reduction iron nutrition phytosiderophore release root tip swelling aerobic rice, Fe(III)-reduction, iron nutrition, phytosiderophore release, root tip swelling
分类号 S435.116 [农业科学—农业昆虫与害虫防治]
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参考文献28

  • 1Alam S,Kamei S,Kawai S. Effectiveness of phytosiderophore in absorption and translocation of 59iron in barley in the presence of plant-borne,synthetic,and microbial chelators[J].Journal of Plant Nutrition and Soil Science,2005.1709-1722.
  • 2Awad F,R(o)mheld V,Marschner H. Effect of root exudates on mobilization in the rhizosphere and uptake of iron by wheat plants[J].Plant and Soil,1994.213-218.
  • 3Bughio N,Yamaguchi H,Nishizawa N K,Nakanishi H,Mori S. Cloning an iron-regulated metal transporter from rice[J].Journal of Experimental Botany,2002.1677-1682.doi:10.1093/jxb/erf004.
  • 4Bouman B A M,Hengsdijk H,Hardy B,Bindraban P S,Tuong T P,Ladha J K. Water-wise Rice Production[M].International Rice Research Institute,Los Banos,Philippines,2002.
  • 5Brown J C,Jolley V D,Lytle C M. Comparative evaluation of iron solubilizing substances(phytosiderophores)released by oats and corn:ironefficient and iron-inefficient plants[J].Plant and Soil,1991.157-163.
  • 6Bityutskii N P. Iron-deficiency responses in cereal seedlings[J].Journal of Plant Nutrition and Soil Science,2007.1483-1498.
  • 7Graham R D,James C R. Trace element uptake and distribution in plants[J].Journal of Nutrition,2003.1502-1505.
  • 8Ishimaru Y,Suzuki M,Tsukamoto T,Suzuki K,Nakazono M,Kobayashi T,Wada Y,Watanabe S,Takahashi M,Nakanishi H. Rice plants take up iron as an Fe3+-phytosiderophore and as Fe2+[J].Plant Journal,2006,(3):335-346.doi:10.1111/j.1365-313X.2005.02624.x.
  • 9Ishimaru Y,Kim S,Tsukamoto T,Oki H,Kobayashi T,Watanabe,Matsuhashi S,Takahashi M,Nakanishi H,Mori S. Mutational reconstructed ferric chelate reductase confers enhanced tolerance in rice to iron deficiency in calcareous soil[J].Proceedings of the National Academy of Sciences(USA),2007,(18):7373-7378.doi:10.1073/pnas.0610555104.
  • 10Jolley V D,Cook K A,Hansen N C,Stevens W B. Plant physiological responses for genotypic evaluation of iron efficiency in strategy Ⅰ and strategy Ⅱ plants-A review[J].Journal of Plant Nutriton,1996.1241-1255.

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Journal of Integrative Agriculture
2012年 第6期

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