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Responses of nitrogen supply on photosynthesis of Jatropha curcas L. under salt stress |
CHEN Jinling, YANG Qiliang, LIU Xiaogang, WANG Weihua, LIU Yanwei |
Faculty of Modern Agricultural Engineering, Kunming University of Science and Technology, Kunming, Yunnan 650500, China |
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Abstract In order to study on effects of nitrogen supply on photosynthetic characteristics of Jatropha curcas L. under salt stress, seedlings of Jatropha curcas L. are exposed to three soil salt contents(S1: 0.2%, S2: 0.4% and S3: 0.6%)and two nitrogen supply levels(N1: 30 and N2: 60 gram for each plant)in greenhouse plot experiments. The results show that Jatropha curcas L. has some property to resist salt stress, while its photosynthetic capacity decreases with increasing level of salt stress. Moreover, the photosynthetic rate of Jatropha curcas L. increases with increasing nitrogen level, showing applying nitrogen fertilizer can effectively relieve the harm on photosynthetic physiology caused by salt stress; however the alleviation effect of nitrogen decreases under S3 salt stress. After a short period of drought, irrigation can effectively improve photosynthesis rate of Jatropha curcas L.. The daily variation of photosynthetic rate of Jatropha curcas L. leaves is a double-peak curve. Compared with level S1, the average daily photosynthetic rates at level S2 and S3 are decreased by 23.51% and 37.97%, respectively, but increased by 39.89% at level N2 against N1. At three salt levels in the experiments, increasing nitrogen supply is beneficial to improving photosynthetic rate, instantaneous water use efficiency. The optimal combination favourable to increase of photosynthetic capacity and water use efficiency is N2S1 under the present experimental conditions.
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Received: 21 January 2016
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[1]季维春,丁春雨,杨威,等. 积极推进盐碱地治理,确保粮食有效供给[J]. 中国农业资源与区划,2013, 34(6):70-73. JI Weichun, DING Chunyu, YANG Wei, et al. Actively promotion of the saline-alkali land treatment to ensure the effective supply of food[J]. Chinese journal of agricultural resources and regional planning, 2013, 34(6):70-73.(in Chinese)[2]唐旭日. 盐碱地改良模式现状及探索[J]. 江苏农业科学,2011, 39(6):595-597. TANG Xuri. Status and exploration of reclamation pattern on saline land[J]. Jiangsu agricultural sciences, 2011, 39(6):595-597.(in Chinese)[3]王遵亲,祝寿泉,俞仁培,等. 中国盐渍土[M]. 北京:科学出版社, 1993:1-10.[4]杨劲松. 中国盐渍土研究的发展历程与展望[J]. 土壤学报,2008, 45(5): 837-845. YANG Jingsong. Development and prospect of the research on salt-affected soils in China[J]. Acta pedologica sinica, 2008, 45(5): 837-845.(in Chinese)[5]马晨,马履一,刘太祥,等. 盐碱地改良利用技术研究进展[J]. 世界林业研究,2010,23(2):28-32. MA Chen, MA Lyuyi, LIU Taixiang, et al. Research progress on saline land improvement technology[J]. World forestry research, 2010, 23(2): 28-32.(in Chinese)[6]张建锋,张旭东,周金星,等. 世界盐碱地资源及其改良利用的基本措施[J]. 水土保持研究, 2005, 12(6): 28-30. ZHANG Jianfeng, ZHANG Xudong, ZHOU Jinxing,et al. World resources of saline soil and main amelioration measures[J]. Research of soil and water conservation, 2005, 12(6): 28-30.(in Chinese)[7]ASHRAF M Y, ASHRAF M, MAHMOOD K, et al. Phytoremediation of saline soils for sustainable agricultural productivity[J]. Plant adaptation & phytoremediation, 2009:335-355.[8]RAVINDRAN K C, VENKATESAN K, BALAKRISHNAN V, et al. Restoration of saline land by halophytes for Indian soils[J]. Soil biology & biochemistry, 2007, 39(10):2661-2664.[9]ACHTEN W M J, VERCHOT L, FRANKEN Y J, et al. Jatropha, bio-diesel production and use[J]. Biomass & bioenergy, 2008, 32(12):1063-1084.[10]GÜBITZ G M, MITTELBACH M, TRABI M. Exploitation of the tropical oil seed plant Jatropha curcas L.[J]. Bioresource technology, 1999, 67(1): 73-82.[11]GAO S, OUYANG C, WANG S, et al. Effects of salt stress on growth, antioxidant enzyme and phenylalanine ammonia-lyase activities in Jatropha curcas L. seedlings[J]. Plant soil & environment, 2008, 54(9):374-381.[12]OPENSHAW K. A review of Jatropha curcas: an oil plant of unfulfilled promise[J]. Biomass and bioenergy, 2000, 19(1):1-15.[13]SEEMANN J R, CRITCHLEY C, SEEMANN J R, et al. Effects of salt stress on the growth, ion content, stomatal behaviour and photosynthetic capacity of a salt-sensitive species, phaseolus vulgaris L.[J]. Planta, 1985, 164(2):151-162.[14]王仁雷,华春,刘友良. 盐胁迫对水稻光合特性的影响[J].南京农业大学学报,2002, 25(4): 11-14. WANG Renlei, HUA Chun, LIU Youliang. Effect of salt stress on photosynthetic characteristics in rice[J]. Journal of Nanjing Agricultural University, 2002, 25(4): 11-14.(in Chinese)[15]李菊艳,赵成义,闫映宇,等. 盐分对胡杨幼苗生长及光合特性的影响[J]. 中国沙漠,2010, 30(1): 80-86. LI Juyan, ZHAO Chengyi, YAN Yingyu, et al. Effects of salt on the growth and photosynthetic characteristics of Populus euphratica seedlings[J]. Journal of desert research, 2010, 30(1), 80-86.(in Chinese)[16]陈健妙,郑青松,刘兆普,等. 麻疯树的幼苗生长和光合作用对盐胁迫的响应[J].生态学报,2009, 29(3): 1356-1365. CHEN Jianmiao, ZHENG Qingsong, LIU Zhaopu,et al. Growing and photosynthetic response of Jatropha curcas L seedlings to salt stress[J]. Acta ecologica sinica, 2009, 29(3): 1356-1365.(in Chinese)[17]EVANS J R. Photosynthesis and nitrogen relationship in leaves of C3 plants[J]. Oecologia, 1989, 78(1):9-19.[18]曹翠玲,李生秀. 供氮水平对小麦生殖生长时期叶片光合速率、NR活性和核酸含量及产量的影响[J]. 植物学通报,2003, 20(3):319-324. CAO Cuiling, LI Shengxiu. Effect of nitrogen level on the photosynthetic rate, NR activity and the contents of nucleic acid of wheat leaf in the stage of reproduction[J]. Chinese bulletin of botany, 2003, 20(3), 319-324.(in Chinese)[19]ABDELGADIR E M, OKA M, FUJIYAMA H. Nitrogen nutrition of rice plants under salinity[J]. Biologia plantarum, 2005, 49(1): 99-104.[20]窦新永,吴国江,黄红英,等. 麻疯树幼苗对干旱胁迫的响应[J]. 应用生态学报,2008, 19(7): 1425-1430. DOU Xinyong, WU Guojiang, HUANG Hongying, et al. Responses of Jatropha curcas L seedlings to drought stress[J]. Chinese journal of applied ecology, 2008, 19(7): 1425-1430.(in Chinese)[21]尹丽,胡庭兴,刘永安,等. 施氮量对麻疯树幼苗生长及叶片光合特性的影响[J]. 生态学报,2011, 31(17): 4977-4984. YIN Li, HU Tingxing, LIU Yongan, et al. Effect of nitrogen application rate on growth and leaf photosynthetic characteristics of Jatropha curcas L seedlings[J]. Acta ecologica sinica, 2011, 31(17): 4977-4984.(in Chinese)[22]张弥,吴家兵,关德新,等. 长白山阔叶红松林主要树种光合作用的光响应曲线[J]. 应用生态学报,2006, 17(9): 1575-1578. ZHANG Mi, WU Jiabin, GUAN Dexin, et al. Light response curve of dominant tree species photosynthesis in broadleaved Korean pine forest of Changbai Mountain[J]. Chinese journal of applied ecology, 2006, 17(9): 1575-1578.(in Chinese)[23]朱新广,张其德. NaCl对光合作用影响的研究进展[J]. 植物学通报,1999, 16(4): 332-338. ZHU Xinguang, ZHANG Qide. Advances in the research on the effects of NaCl on photosynthesis[J]. Chinese bulletin of botany, 1999, 16(4): 332-338.(in Chinese)[24]XU X W, XU H L, WANG Y L, et al. The effect of salt stress on the chlorophyll level of the main sand-binding plants in the shelterbelt along the Tarim Desert Highway[J]. Chinese science bulletin, 2008, 53(S2):109-111.[25]许大全.光合作用效率[M]. 上海:上海科学技术出版社,2002: 46-52.[26]张绪成,上官周平. 施氮量对小麦叶片硝酸还原酶活性、一氧化氮含量和气体交换的影响[J]. 应用生态学报,2007, 18(7):1447-1452. ZHANG Xucheng, SHANGGUAN Zhouping. Effects of nitrogen application rate on nitrate reductase activity, nitric oxide content and gas exchange in winter wheat leaves[J]. Chinese journal of applied ecology, 2007, 18(7):1447-1452.(in Chinese)[27]薛崧,汪沛洪,许大全,等. 水分胁迫对冬小麦CO2同化作用的影响[J]. 植物生理学报,1992, 18(1): 1-7. XUE Song, WANG Peihong, XU Daquan, et al. Effects of water stress on CO2 assimilation of two winter wheat cultivars with different drought resistance[J]. Acta phytophysiologica sinica, 1992, 18(1): 1-7.(in Chinese)[28]TEZARA W, MITCHELL V J, DRISCOLL S D, et al. Water stress inhibits plant photosynthesis by decreasing coupling factor and ATP[J]. Nature, 1999, 401(6756): 914-917.[29]RAMANJULU S, SREENIVASALU N, KUMAR S G, et al. Photosynthetic characteristic in mulberry during water stress and rewatering[J]. Photosynthetica, 1998, 35(2):259-263.[30]夏亮,邢杰,王胜华,等. 麻疯树光合生理特征研究[J]. 四川大学学报(自然科学版),2008, 45(2): 413-418. XIA Liang, XING Jie, WANG Shenghua, et al. Study on photosynthesis physiology characteristics of Jatropha curcas L[J]. Journal of Sichuan University(natural science edition), 2008, 45(2): 413-418.(in Chinese)[31]蔡庆生. 植物生理学[M]. 北京:中国农业大学出版社,2014: 105-111.[32]尹海龙,田长彦,陈春秀,等. 不同盐度施氮水平下盐地碱蓬幼苗生长及光合色素含量分析[J]. 干旱区研究,2013, 30(5): 887-893. YIN Hailong, TIAN Changyan, CHEN Chunxiu, et al. Growth and photosynthetic pigment content of suaeda salsa seedlings under different salinity and nitrogen level[J]. Arid zone research, 2013, 30(5): 887-893.(in Chinese) |
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