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师资队伍
                       
 
姓名:邹春琴
性别:女
职称:教授/博士生导师
Email:zcq0206@cau.edu.cn
办公电话:010-62733539
办公地址:资环楼四区216房间

  教育背景

1985.09-1989.08   北京大学 生物系 学士

1989.09-1992.07   中国农业大学  植物营养系 硕士

1992.09-1995.07   中国农业大学  植物营养系 博士

 

  工作履历

1995.07-1997.07  中国科学院遗传研究所, 博士后

1997.07-2004.12  中国农业大学, 副教授

2005.01-至今     中国农业大学,植物营养系, 教授

  研究领域

微量元素营养的根际过程;

微量元素在植物体内利用和再利用的生理机制;

籽粒微量元素营养与人体健康

  主持项目

1. 中德国际研究培训项目“Adaptation of maize-based food-feed-energy systems to limited phosphate resources粮食-饲料-能源玉米生产系统磷资源高效利用 ” (2019-2027)

2. 国家自然科学基金面上项目“协同实现小麦高产优质和环境友好的根层土壤锌调控机”(2017.01-2020.12) 

3. 国家重点研发计划项目“氮磷污染负荷削减水肥协同调控-化肥与水分优化调控削减氮磷污染技术研发”(2017.07-2020.12),专题主持

4. 国际合作项目“Use of micronutrient containing fertilizers for biofortification of food crops and improving grain yield in different countries-phase I, II, III, IV”(2008.05-2021.05),主持

5. 国家973课题“作物高产高效的地上地下互作机制与调控途径”(2015-2019),专题主持

6. 山西省科委国际合作项目 “内陆盐碱土改良利用调控机理与技术合作研究”( 2015-2018),参加

7. 国家自然科学基金面上项目 “磷供应影响禾谷类作物籽粒锌累积和有效性的作用机制”(2013.01-2017.12),主持

8. 国际锌协会项目“Zinc application improves production and quality of wheat, rice and maize” (2010.01-2011.12),参加

9. 国家自然科学基金面上项目 “氮素供应对铁向籽粒转移的影响及其作用机制”(2009.01-2011.12),主持

10. 国家973项目 “主要粮食作物高产栽培与资源高效利用的基础研究-高产作物水肥高效利用的根-土互作机理”(2009.01-2013.01),专题主持支持

11. 国家自然科学基金面上项目 “中国小麦籽粒铁含量分析及其高铁累积的生理和分析机制” (2007.01-2009.12),主持

12. 中澳国际合作项目“A Food Systems Strategy to Balance Plant and Human Nutrition at Village Level”(2007.03-2008.03),主持

13. 科技支撑项目 “平衡施肥与养分管理技术-小麦和玉米大中微量元素配合施用与平衡施肥技术”(2006-2010),子课题主持

14. 国家自然科学基金面上项目 “旱稻铁锌营养的根际调控机制” (2006.01-2006.12),主持

15. 国际合作项目 “Screening of high iron-zinc wheat genotype and its nutritional function study”(2005-2008),参加

16. 国家自然科学基金面上项目 “硅提高植物水分利用效率的机制” (2003.01-2005.12),主持

17. 国家自然科学基金面上项目“不同供氮形态植物生长效应的机理研究” (2001.01-2003.12),主持

18. 国家自然科学基金面上项目 “提高植物体内再利用效率的机理研究” (2009.01-2002.12),参加

19. 科技支撑项目 “氮-磷胁迫条件下植物根/土界面氮、磷迁移及其对环境与农产品品质的影响” (1999.12-2004.12),参加

20. 教育部博士点基金 “质外体在植物抗缺铁胁迫中的作用与机理”(2002.01-2004.12),参加

21. 中-荷国际合作项目“Zinc bioavailability to aerobic rice”(2002.11-2006.11),参加

22. 教育部博士点基金 “利用豌豆单基因突变体探讨铁向籽粒中的转运机制”(1999.01-2001.12),共同主持

23. 国家攀登计划“作物高产高效抗逆的重要生理问题-提高养分资源利用效率的途径与原理”(1997.12-2001.12),参加

  学术成果

一、发表论文

2020年

1. Chen XX, Liu YM, Zhao QY, Cao WQ, Chen XP, Zou CQ*. 2020. Health risk assessment associated with heavy metal accumulation in wheat after long-term phosphorus fertilizer application. Environmental Pollution, 262:114348

2. Zhao QY, Zhang W, Chen XX, Xu SJ, Zou CQ*. 2020. Zinc fractions in soils and uptake in winter wheat as affected by repeated applications of zinc fertilizer. Soil and Tillage Research. 200:104612.

3. Liu DY, Zhang W, Liu YM, Chen XP*, Zou CQ. 2020. Soil application of zinc fertilizer increases maize yield by enhancing the kernel number and kernel weight of inferior grain. Frontier in Plant Science, 11:118.

4. Liu YM, Liu DY, Zhang W, Chen XX, Zhao QY, Chen XP, Zou CQ*. 2020. Health risk assessment of heavy metals (Zn, Cu, Cd, Pb, As and Cr) in wheat grain receiving repeated Zn fertilizers. Environmental Pollution. 257 :113581

2019年

5. Chen XX, Zhang W, Liang XY, Liu YM, Xu SJ, Zhao QY, Du YF, Zhang L, Chen XP, Zou CQ.* 2019. Phosphorus management optimized the physiological and developmental traits associated with grain yield of winter wheat. Scientific Reports

6. Xue YF, Yue SC, Liu DY, Zhang W, Chen XP, Zou CQ*.  2019. Dynamic zinc accumulation and contributions of pre- and/or post-silking zinc uptake to grain zinc of maize as affected by nitrogen supply. Frontiers in Plant Science. 10:1203

7. Rasjod A, Ram, H, Zou CQ, Rerkaserm, B, Daurte AP, Simunji S, Yazici A, Guo SW, Rizwan M, Bal RS, Wang ZH, Malik SS, Phattarakul N, Freitas RS, Lungu O, Barros VLNP, Cakmak I*. 2019. Effect of zinc-biofortified seeds on grain yield of wheat, rice, and comon bean grown in six countries. Journal of Plant Nutrition and Soil Science. 182:791-804 

8. Zou CQ, Du YF, Rashid A, Ram H, Savasli E, Pieterse P J, Ortiz-Monasterio I, Yazici A, Kaur C, Mahmood K, Singh S, Le Roux MR, Kuang W, Onder O, Kalayci M, and Cakmak I*. 2019. Simultaneous biofortification of wheat with zinc, iodine, selenium and iron through foliar treatment of a micronutrient cocktail in six countries. Journal of Agricultural and Food Chemistry. 67:8096-8106

9. Zhao RR,Qu BY,Tong YP,Zou CQ*. 2019. Iron and zinc accumulation in winter wheat regulated by NICOTIANAMINE SYNTHASE responded to increasing nitrogen levels. Journal of Plant Nutrition. 42(14):1624-1636

10. Liu DY, Liu YM, Zhang W, Chen XP, Zou CQ*. 2019. Zinc uptake, translocation, and remobilization in winter wheat as affected by soil application of Zn fertilizer. Frontiers in Plant Science. 10:426.

11. Chen XX, Zhang W, Wang Q, Liu YM, Liu DY, Zou CQ*. 2019. Zinc nutrition of wheat in response to application of phosphorus to a calcareous soil and an acid soil. Plant and Soil. 434:139–150

12. Zhang WS, Liang ZY, He XM, Wang XZ, Shi XJ, Zou CQ, Chen XP*. 2019. The effects of controlled release urea on maize productivity and reactive nitrogen losses: A meta-analysis. Environmental Pollution 246: 559-565

13. Deng Y, Teng W, Tong YP, Chen XP, Zou CQ*. 2018. Phosphorus efficiency mechanisms of two wheat cultivars as affected by a range of phosphorus levels in the field. Frontiers in Plant Science. 9:1614.

2018年

1. Wang XZ, Liu B, Su YX, Guo XS, Jin ZH, Xu WN, Zhao YZ, Zhang FS, Zou CQ*, Chen XP. 2018. Environmental costs and mitigation potential in plastic-greenhouse pepper production system in China: A life cycle assessment. Agricultural Systems 167:186-194

2. Zhang W, Chen XX, Liu YM, Liu DY, Du YF, Chen XP, Zou CQ*. 2018. The role of phosphorus supply in maximizing the leaf area, photosynthetic rate, coordinated to grain yield of summer maize. Field Crops Research. 219:113-119

3. Karim MD, Tian D, Zhang YQ, Chen FJ, Zou CQ*. 2018 Fine roots for uptake and translocation of zinc into young leaves as important traits for zinc efficiency of maize genotypes. Communications in Soil and Plant Analysis. 49(18): 2345–2356

4. Gao SJ, Chang DN, Zou CQ*, Cao WD*, Gao JS, Huang J, Bai JS, Zeng NH, Rees RM, Thorup-Kristensen K. 2018. Archaea are the predominant and responsive ammonia oxidizing prokaryotes in a red paddy soil receiving green manures. European Journal of Soil Biology. 88:27-35

5. Wang XZ, Zou CQ,Zhang YQ, Shi XJ, Liu JZ, Fan SS, Liu YM, Du YF, Zhao QY, Tan YG, Wu CL, Chen XP*. 2018. Environmental impacts of pepper (Capsicum annuum L.) production affected by nutrient management: A case study in southwest China. Journal of Cleaner Production. 171:934-943

6. Wang XZ, Zou CQ,Gao XP, Guan XL, Zhang WS, Zhang YQ, Shi XJ, Chen XP*. 2018. Nitrous oxide emissions in Chinese vegetable systems: A metaanalysis. Environmental Pollution. 239:375-383

7. Gao SJ, Gao JS, Cao WD*, Zou CQ*, Huang J, Bai JS, Dou FG. 2018. Effects of long-term green manure application on the content and structure of dissolved organic matter in red paddy soil.  Journal of Integrative Agriculture. 17(5): 60345-7

8. Gao SJ, Cao WD*, Zou CQ*, Gao JS, Huang J, Bai JS, Zeng NH, Shimizu KY, Wright A, Dong FG. 2018. Ammonia-oxidizing archaea are more sensitive than ammonia-oxidizing bacteria to long-term application of green manure in red paddy soil. Applied Soil Ecology. 124:185-193

2017年

1. Ren YZ*, Qian YY*, Xu YH, Zou CQ, Liu DC, Zhao XQ, Zhang AM, Tong YP. 2017. Characterization of QTLs for root traits of wheat grown under different nitrogen and phosphorus supply levels. Frontiers in Plant Science, 8:2096

2. Chen XP, Zhang Y Q, YP Tong, Xue YF, Liu DY, Zhang W, Deng Y, Meng QF, Yue SC, Yan P, Cui ZL, Shi XJ, Guo SW, Sun YX, Ye YL, Wang ZH, Jia LL, Ma WQ, He MR, Zhang XY, Kou CL, Li YT, Tan DS, Cakmak I Zhang FS, Zou CQ*. 2017. Harvesting more grain zinc of wheat for human health. Scientific Reports.7:7016

3. Liu DY, Liu YM, Zhang W, Chen XP, Zou CQ*. 2017. Agronomic Approach of Zinc Biofortification Can Increase Zinc Bioavailability in Wheat Flour and thereby Reduce Zinc Deficiency in Humans. Nutrients. 9(5): 465

4. Liu DY, Zhang W, Yan P, Chen XP, Zhang FS, Zou CQ*. 2017. Soil application of zinc fertilizer could achieve the high yield and high grain zinc concentration of maize. Plant and Soil, 411:47-55

5. Liu DY, Zhang W, Pang LL, Zhang YQ, Wang XZ, Liu YM, Chen XP, Zhang FS, Zou CQ*. 2017. Effects of zinc application rate and zinc distribution relative to root distribution on grain yield and grain Zn concentration in wheat. Plant and Soil. 411:167–178

6. Deng Y Feng G, Chen XP, Zou CQ*. 2017. Arbuscular mycorrhizal fungal colonization is considerable at optimal Olsen-P levels for maximized yields in an intensive wheat-maize cropping system. Field Crops Research. 209:1-9

7. Zhang W, Chen XX, Liu YM, Liu DY, Chen XP, Zou CQ*. 2017. Zinc uptake by roots and accumulation in maize plants as affected by phosphorus application and arbuscular mycorrhizal colonization. Plant Soil.  413:59–71

8. Zhang W, Liu DY, Liu YM, Chen XP, Zou CQ*.  2017. Overuse of phosphorus fertilizer reduces the grain and flour protein and zinc bioavailability of winter wheat (Triticum aestivum L.). Journal of Agricultural and Food Chemistry. 65: 1473-1482

9. Zhang W, Liu DY, Li C, Chen XP, Zou CQ*. 2017. Accumulation, partitioning, and bioavailability of micronutrients in summer maize as affected by phosphorus supply. Europe Journal of Agronomy. 86: 48-59

2016年

1. Liu DY, Zhang W, Pang LL, Zhang YQ, Wang XZ, LYM, Chen XP, Zhang FS, Zou CQ*. 2016. Effects of zinc application rate and zinc distribution relative to root distribution on grain yield and grain Zn concentration in wheat. Plant and Soil,

2. Xue YF, Zhang W, Liu DY, Xia HY,Zou CQ*. 2016. Nutritional composition of iron, zinc, calcium, and phosphorus in wheat grain milling fractions as affected by fertilizer nitrogen supply. Cereal Chemistry. 93(6):543-549

3. Zhang W, Liu DY, Liu YM, Cui ZL, Chen XP, Zou CQ*. 2016. Zinc uptake and accumulation in winter wheat relative to changes in root morphology and mycorrhizal colonization following varying phosphorus application on calcareous soil. Field Crops Research.197:74-82

4. Zhan A, Zou CQ, Ye YL,Liu ZH, Cui ZL∗, Chen XP. 2016. Estimating on-farm wheat yield response to potassium and potassium uptake requirement in China. Field Crops Research. 191: 13-19

5. Lu DJ, Yue SC, Lu FF, Cui ZL, Liu ZH, Zou CQ, Chen XP. 2016. Integrated crop-N system management to establish high wheat yield population. Field Crops Research 191: 66–74

6. Ram H, Rashid A, Zhang W, Duarte AP, Phattarakul N, Simunji S, Kalayci M, Freitas R, Rerkasem B, Bal RS, Mahmood K, Savasli E, Lungu O, Wang ZH, Barros de VLNP, Malik SS, Arisoy RZ, Guo JX, Sohu VS, Zou CQ, Cakmak I. 2016. Biofortification of wheat, rice and common bean by applying foliar zinc fertilizer along with pesticides in seven countries. Plant and Soil. 403:389–401

7. Wang YH,Zou CQ, Mirza Z, Li H, Zhang ZZ, Li DP, Xu CL, Zhou XB, Shi XJ, Xie DT, He XH, Zhang YQ. 2016. Cost of agronomic biofortification of wheat with zinc in China.  Agronomy Sustainable Development. 36: 37-44 

8. Yin HJ, Gao XP, Stomph TJ, Li LJ, Zhang FS, Zou CQ*. 2016. Zinc Concentration in Rice (Oryza sativa L.) Grains and allocation in plants as affected by different zinc fertilization strategies. Communications in Soil Science and Plant Analysis. 41 (6):761-768

2015年

1. Wang XZ, Liu DY, Zhang W, Wang CJ, Cakmak I, Zou CQ*. 2015. An effective strategy to improve grain zinc concentration of winter wheat, Aphids prevention and farmers’ income. Field Crops Research. 184:74-79

2. Zhang W, Liu DY, Li C, Cui ZL, Chen XP, Russell Y, Zou CQ*. 2015. Zinc accumulation and remobilization in winter wheat as affected by phosphorus application. Field Crops Research. 184:155-161

3. Lu DJ, Lu FF, Pan JX, Cui ZL, Zou CQ, Chen XP, He MR, Wang ZL. 2015. Manure limits wheat yield losses due to delayed seeding. Agronomy Journal, 107(6):2294-2302

2014年

1. Xue YF, Eagling T, He JB, Zou CQ, MacGrath SP, Shewry PR, Zhao FJ*. 2014. Effects of nitrogen on the distribution and chemical speciation of iron and zinc in pearling fractions of wheat grain. Journal of Agriculture and Food Chemistry. 62:4738-4746

2. Xue YF, Yue SC, Zhang W, Liu DY, Cui ZL, Chen XP, Ye YL, Zou CQ*. 2014. Zinc, iron, manganese and copper uptake requirement in response to nitrogen supply and the increased grain yield of summer maize. Plos One. 6(4):e93895

3. Xue YF, Zhang W, Liu DY, Yue SC, Cui ZL, Chen XP, Zou CQ*. 2014. Effects of nitrogen management on root morphology and zinc translocation from root to shoot of winter wheat in the field. Field Crops Research, 161:38-45

4. Lu DJ, Yan P, Lu FF, Chen XP, Cui ZL*, Zou CQ, Zhang FS. 2014. Elucidating population establishment associated with N management and cultivars for wheat production in China. Field Crops Research, 163, 81-89

5. 王孝忠,田娣,邹春琴*. 2014. 锌肥不同施用方式及施用量对我国主要粮食作物增产效果的影响.植物营养与肥料学报,20(4):998-1004

6. 刘敦一, 庞丽丽,  张伟, 李忠祥, 王孝忠, 于福同, 邹春琴. 2014. 锌肥施用方式对小麦玉米产量和籽粒锌含量的影响. 中国土壤与肥料,4:76-80,90

2013年

1. Shi RL, Tong YP, Jing RL, Zhang FS, Zou CQ*. 2013. Characterization of Quantitative Trait Loci for grain minerals in hexaploid wheat (Triticum aestivum L.). Journal of Integrative Agriculture. 12(9):1512-1521

2. Zhang YQ, Pang LL, Yan P, Liu DY, Zhang W, Yost R, Zhang FS, Zou CQ*. 2013. Zinc fertilizer placement affects zinc content in maize plant. Plant and Soil. 372:81-92

3. Zhang YQ, Yazici MA, Gokmen Z, Cakmak I, Zhang FS, Zou CQ*. 2013. Comparison of winter wheat genotypes differing from zinc efficiency and origin: the zinc uptake and enzyme activity. Communications in Soil and Plant Analysis 44:2875–2883

4. 顾日良,陈范骏,张俊伶,袁力行,邹春琴,陈新平,申建波,江荣风,张福锁.2013. Seminar课程在研究生培养中的重要作用-以中国农业大学植物营养学科研究生Seminar为例.研究生教学,学位与研究生教育, 7:42-44

5. 李孟华,王朝辉,王建伟,毛晖,魏建,李强,邹春琴. 2013. 低锌旱地施锌方式对小麦产量和锌利用的影响.植物营养与肥料学报,19(6): 1346-1355

2012年

1. Zou CQ, Zhang YQ, Rashid A, Ram H, Savasli E, Arisoy RZ, Ortiz-Monasterio I, Simunji S, Wang ZH, Sohu V, Hassan M, Kaya Y, Onder O, Lungu O, Yaqub Mujahid M, Joshi AK, Zelenskiy Y, Zhang FS,Cakmak I. 2012. Biofortification of wheat with zinc through zinc fertilization in seven countries. Plant and Soil, 361:119-130

2. Xue YF, Yue SC, Zhang YQ, Cui ZL, Chen XP, Yang FC, Cakmak I, Steve P. McGrath,  Zhang FS, Zou CQ*. 2012. Grain and shoot zinc accumulation in winter wheat affected by nitrogen management. Plant and Soil, 361:153-163

3. Zhang YQ, Deng Y, Chen RY, Cui ZL, Chen XP, Yost R, Zhang FS, Zou CQ*. 2012. The reduction in zinc concentration of wheat grain upon increased phosphorus-fertilization and its mitigation by foliar zinc application. Plant and Soil, 361:143-152

4. Phattarahul N, Rerkasem B, Li LJ, Wu LH, Zou CQ, Ram H, Sohu VS, Kang BS, Surek H, Kalayci M, Yazici A, Zhang FS, Cakmak I*. 2012. Biofortification of rice grain with zinc through zinc fertilizeration in different countries. Plant and Soil, 361:131–141 5. Karim MR, Zhang YQ, Tian D, Chen FJ, Zhang FS, Zou CQ*. 2012. Genotypic differences in Zn efficiency of Chinese maize evaluated in a pot experiment. Journal of the Science of Food and Agriculture. 92: 2552–2559

6. Shi R L, Hao HM, Fan XY, Karim MR, Zhang FS, Zou CQ*. 2012. Responses of aerobic rice (Oryza sativa L.) to iron deficiency. Journal of Integrative Agriculture. 11(6): 938-945

7. Fan XY, Karim MR, Chen XP, Zhang YQ, Gao XP, Zhang FS, Zou CQ*. 2012. Growth and iron uptake of lowland and aerobic rice genotypes under flooded and aerobic cultivation. Communications in Soil Science and Plant Analysis, 43:1811-1822

8. Shi RL, Weber G, Mohammad RH, Zou CQ, Zhang FS, Wirén N*. 2012. Senescence-induced iron mobilization in source leaves as a prerequisite for iron retranslocation in barley plants. New Phytologist. 195(2):272-283

9. Karim MR, Zhao RR, Zhang YQ, Chen XP, Zhang FS, Zou CQ*. 2012. Alleviation of drought stress in winter wheat by late foliar application of zinc, boron, and manganese. Journal of Plant Nutrition and Soil Science. 175:142-151

10. Gao XP*, Hoffland E, Stomph T, Grant CA, Zou CQ, Zhang FS. 2012. Improving zinc bioavailability in transition from flooded to aerobic rice. A review. Agronomy Sustainable Development. 32:465–478

11. Zhang YQ, Sun YX, Ye YL,Karim MR, Xue YF, Yan P, Meng QF, Cui ZL, Cakmak I, Zhang FS, Zou CQ*. 2011. Zinc biofortification of wheat through fertilizer applications in different locations. Field Crops Research. 125: 1–7

2011年以前

1. Shi RL, Bäßler R, Zou CQ, Römheld V*. 2011. Is iron phloem mobile during senescence in trees? A reinvestigation of Rissmüller’s finding of 1874. Plant Physiology and Biochemistry. 1-5

2. 庞丽丽,邹春琴*. 2011. 主要粮食作物生产体系中锌肥的合理利用.中国农学通报  27(27):12-17

3. Zhang YQ, Shi RL, Q, Rezaul Karim Md, Zhang FS, Römheld V, Zou CQ*. 2010. Iron and zinc concentrations in grain and flour winter wheat as affected by foliar application. Journal of Agricultural and Food Chemistry. 58:12268–12274.

4. Shi RL, Zhang YQ, Chen XP, Sun QP, Zhang FS, Römheld V, Zou CQ*. 2010. Influence of long-term nitrogen fertilization on micronutrient density in grain of winter wheat (Triticum aestivum L.).Journal of Cereal Science. 51: 165–170

5. Zhang Y, Song QC, Yan J, Tang JW, Zhao RR, Zhang YQ, He ZH*, Zou CQ,Ivan Ortiz-Monasterio. 2010. Mineral element concentrations in grains of Chinese wheat cultivars. Euphytica 174:303–313

6. Gao XP, Schroder Thomas J, Hoffland E, Zou CQ, Zhang FS*, E.A.T.M. van der Zee Sjoerd. 2010. Geochemical modeling of zinc bioavailability for rice. Soil Science Society of America Journal., 74(1):301-309

7. 石荣丽,张福锁,邹春琴*. 2010. 不同基因型小麦铁营养效率差异及其可能机制植物营养与肥料学报. 16(6):1306-1311

8. 谢福堂,吴少福,吕倩,吴良欢,邹春琴. 2010.新型含锌复合肥对水稻生长和产量的影响. 广东农业科学,8:104-105

9. Shi RL, Zou CQ*, Rui YK, Zhang XY, Xia XP, Zhang FS. 2009. Application of ICP-AES to detecting nutrients in grain of wheat core collection of China. Spect roscopy and Spectral Analysis 4:1104-1107

10. Wang XF, Zou CQ*, Zhao ZX, Yang YH, Zhang FS. 2009. Growth and accumulation of nitrogen and potassium in flue-cured tobacco as affected by calcium nitrate and ammonium nitrate. Communications in Soil Science and Plant Analysis. 40:11, 1873-1888

11. Tang JW, Zou CQ, He ZH, Shi RL, Ivan Ortiz-Monasterio, Qu YY, Zhang Y. 2008. Mineral element distributions in milling fractions of Chinese wheats. Journal of Cereal Science. 48:821-828

12. Shi RL, Li HWi, Tong YP, Jing RL, Zhang FS, Zou CQ*. 2008. Identification of quantitative trait locus of zinc and phosphorus density in wheat (Triticum aestivum L.) grain. Plant and Soil. 306:95-104

13. Gao XP, Thomas W, Kuyper E, Zou CQ, Zhang FS, Hoffland E*. 2007. Mycorrhizal responsiveness of aerobic rice genotypes is negatively correlated with their zinc uptake when Nonmycorrhizal. Plant and Soil. 290:283–291

14. 邹春琴*,范晓云,石荣丽,张福锁. 2007. 铵态氮和硝态氮对旱稻、水稻生长及铁营养状况的影响. 中国农业大学学报.12(4):45-49

15. 邹春琴*, 高霄鹏, 张福锁. 2007. 施硅对玉米生长及蒸腾速率的影响.中国生态农业学报. 15(3):55-57

16. 赵荣芳, 邹春琴, 张福锁. 2007. 长期施用磷肥对冬小麦根际磷、锌有效性及其作物磷锌营养的影响. 植物营养与肥料学报. 13(3):368-372

17. Gao XP, Zou CQ* , Wang LJ, Zhang FS. 2006. Silicon decreases transpiration rate and conductance from stomata of maize plants. Journal of Plant Nutrition. 29: 1637-1647

18. Gao XP, Zou CQ, Fan XY, Zhang FS, Hoffland E*. 2006. From flooded to aerobic conditions in rice cultivation: consequences for zinc uptake. Plant and Soil. 280: 41-47

19. Gao XP, Zou CQ*, Zhang FS, Sjoerd E.A.T.M. van der Zee, Hoflland E. 2005. Tolerance to zinc deficiency in rice correlates with zinc uptake and translocation. Plant and Soil,278(1-2):253-261

20. 石荣丽,邹春琴*,张福锁. 2006. 籽粒铁、锌营养与人体健康研究进展. 广东微量元素科学. 13(7):1-8

21. Zou CQ, Wang XF, Wang ZY, Zhang FS*. 2005. Potassium and nitrogen distribution pattern and growth of flue-cured tobacco seedlings influenced by nitrogen form and calcium carbonate in hydroponic culture. Journal of Plant Nutrition,28(12):2145-2157

22. 邹春琴, 王荔军, 刘颖杰, 高霄鹏, 张福锁*. 2005. 硅对向日葵水分利用效率的影响. 植物营养与肥料学报, 11(4) :547 - 550

23. Gao XP, Zou CQ*, Wang LJ, Zhang FS. 2004. Silicon improves water use efficiency of maize plants. Journal of Plant Nutrition. 27(8): 1457-1470

24. 邹春琴,王晓凤,张福锁.  2004. 铵态氮抑制向日葵生长的作用机制初步探讨. 植物营养与肥料学报. 10(1): 82-85

25. Zou CQ, Zhang FS*. 2003. Ammonium improves iron nutrition by decreasing leaf apoplastic pH of sunflower plants (Helianthus annuus L. cv. Frankasol). Chinese Science Bulletin. 48(20): 2215-2220

26. 郝红梅, 邹春琴, 张福锁. 2003. 不同旱稻品种 (系) 间铁营养状况的比较. 中国农业大学学报. 8(5): 79-82

27.  邹春琴, 张福锁. 2003. 叶片质外体pH降低是铵态氮改善植物铁营养的重要机制. 科学通报. 48(16): 1791-1795

28. Zou CQ, Li JY, Li ZS, Zhang FS, Tong YP, Chen XP*, Hou LJ, Wang XF. 2002. Photosynthate distribution in wheat varities differing in phospehorus efficiency. Communications in soil science and plant analysis. 33(19&20): 3767-3777

29. Zou CQ,Zhang FS*, Goldbach HE. 2002. Iron fractions in the apoplast of intact root tips of Zea mays L. seedlings affected by nitrogen form. Chinese Science Bulletin. 47 (9): 727-731

30. 邹春琴, 李振声, 李继云. 200. 钾利用效率不同的小麦品种各生育期钾营养特点.中国农业科学,35(3): 340-344

31. 郭世伟,邹春琴,张福锁,杨志福. 2002. 铁营养状况和不同外源激素读玉米体内铁再利用与分配的影响. 植物营养与肥料学报. 8: 91-95

32. 邹春琴, 郭世伟,张福锁, 杨志福. 2002. 氮素形态和韧皮部烫伤对玉米韧皮部铁运输的影响. 植物营养与肥料学报. 8(4): 419-423

33. Zou CQ, Shen JB, Zhang FS*, Guo SW, Tang CX, Rengl Z. 2001. Effect of different nitrogen forms on iron transport and reutilization in maize plants. Plant and Soil. 235(2): 143-149

34. 郭世伟,邹春琴,张福锁,江荣风 2001. 铁营养状况和不同形态氮素对玉米体内不同铁库铁再利用的影响. 土壤学报.  38(4): 464-470

35. 邹春琴, 张福锁, Goldbach HE. 2001. 氮素形态对玉米根尖质外体铁组成影响的短期效应. 科学通报, 46(24): 2058-2061

36. 邹春琴, 李振声, 李继云. 2001. 小麦对钾高效吸收的根系形态学和生理学基础植物营养与肥料报. 7(1): 36-43

37. 陈新平,邹春琴,刘亚萍,张福锁. 2000.  菠菜不同品种累积硝酸盐能力的差异及其原因.植物营养与肥料学报. 6(1):30-34

38. 邹春琴, 李振声, 李继云,张福锁. 2000. 钾利用效率不同的小麦品种间根际钾营养动态的比较, 中国农业大学学报. 5(3):87-91

39. 郭世伟,邹春琴,张福锁,江荣风. 2000. 提高植物体内铁再利用效率的研究现状及进展. 中国农业大学学报. 5(3):80-86

40. 邹春琴, 张福锁, 毛达如. 1998. 铁对玉米体内氮代谢过程的影响. 中国农业大学学报. 3(5): 45-50

41. 邹春琴, 陈新平, 张福锁, 毛达如. 1998. 活性铁作为植物铁营养状况诊断指标的相关研究.  植物营养与肥料学报. 4(4): 399-406

42. 王震宇, 张福锁, 王贺, 邹春琴. 1998.  缺硼与低温对黄瓜幼苗一些生理反应的影响.植物生理学报. 24(1): 59-64

43. 邹春琴, 张福锁, 毛达如. 1997. 影响菜豆体内铁再利用效率的因素及其机理.土壤学报. 34(4): 451-460

44. 邹春琴, 张福锁, 毛达如. 1997. 不同调节措施对菜豆吸收矿质养分及其在体内分布的影响.II. Fe, Mn, Cu, Zn. 中国农业大学学报. 2(1): 37-44

45. 邹春琴, 张福锁, 毛达如. 1997. 提高玉米体内铁再利用效率的途径及其机理. 中国农业科学. 3:68-67

46. 邹春琴, 张福锁, 李春俭, 毛达如. 1996.  植物体内铁再利用的因素及其机理,世界农业.  4:22-23, 63

47.  邹春琴, 张福锁, 毛达如. 1996. 不同调节措施对菜豆吸收矿质养分及其在体内分布的影响. I. N, P, K, Ca, Mg  中国农业大学学报.  1(5): 27-33

48. 邹春琴, 李振声, 李继云. 1996. 植物高效利用K素资源的研究进展,生态农业研究. 4(3):10-14

49. 邹春琴, 李春俭, 张福锁, 毛达如. 1996. 铁和不同形态氮素对玉米植株吸收矿质元素及其在体内分布的影响 II. 对铁、锰、铜、锌等营养元素的影响, 植物营养与肥料学报. 2(3): 219-215

50. 邹春琴, 李春俭, 张福锁, 毛达如. 1996. 铁和不同形态氮素对玉米植株吸收矿质元素及其在体内分布的影响  I. 对氮、磷、钾、钙、镁等营养元素的影响.植物营养与肥料学报. 2(1): 68-73

51. 邹春琴, 杨志福.1994. 氮素形态对小麦根际pH与磷素营养状况的影响.土壤通报. 25(4):75-177

52. 邹春琴, 张福锁, 毛达如. 1993(增刊). 铁在菜豆体内再转移效率的研究.北京农业大学学报. 27-31

53. 邹春琴, 杨志福. 1993.  石灰性土壤上不同形态氮对春小麦吸收利用氮磷的影响.土壤通报. 24(4): 169-171

54. Chu Zhong-Xi, Zhang Fu-Man,Song Lin-Yi, Li Mao-Xue, You Rui-Lin and Zou Chun-Qin. 1992. The influence of space conditions on the seeds and their offsprings of cucumber. Chinese Journal of Botany, 4(2):143-147

二. 出版著作

1. 中国土壤和作物中微量元素营养现状与展望, 中国农业大学出版社, 2009, 主编.

2. 根际生态学—过程与调控,中国农业大学出版社, 2009, 参编.

3. Biofortified Agricultural Products, CRC press, 2009, 参编.

4. Micronutrient Deficiencies in Global Crop Production, Spring Publisher, 2008, 参编

5. 中国覆盖旱作水稻理论与实践,中国农业大学出版社, 2007, 参编.

6. 养分资源综合管理理论与实践概论, 中国农业大学出版社,2006, 参编.

7. 植物营养学(上册, 第二版), 中国农业出版社, 2003, 参编.

8. 土壤与植物营养研究新动态, 中国农业大学出版社出版, 2001, 参编.

9. 环境胁迫与植物根际营养,中国农业出版社, 1998, 参编.

10. 土壤与植物营养研究新动态, 中国农业出版社, 1995, 参编.