丹江口库区覆膜耕作土壤净氮矿化随夏玉米生长期的变化

doi:10.13287/j.1001-9332.201702.014

应用生态学报 ›› 2017, Vol. 28 ›› Issue (2): 581-588.doi: 10.13287/j.1001-9332.201702.014

丹江口库区覆膜耕作土壤净氮矿化随夏玉米生长期的变化

王伟, 于兴修^*, 汉强, 徐苗苗, 任瑞, 张家鹏

湖北大学资源环境学院/区域开发与环境响应湖北省重点实验室, 武汉 430062

收稿日期:2016-06-23 出版日期:2017-02-18 发布日期:2017-02-18
通讯作者: * E-mail: xxy2000@126.com
作者简介:王伟, 男, 1990年生, 硕士研究生. 主要从事资源利用与环境效应研究. E-mail: longxiww@163.com
基金资助:
本文由国家自然科学基金项目(41471227)资助

Temporal variation of soil net nitrogen mineralization in summer maize growing period under plastic film mulched cultivation in Danjiangkou Reservoir Area, China.

WANG Wei, YU Xing-xiu^*, HAN Qiang, XU Miao-miao, REN Rui, ZHANG Jia-peng

College of Resources and Environmental Science, Hubei University/Hubei Key Laboratory of Region Development and Environment Response, Wuhan 430062, China.

Received:2016-06-23 Online:2017-02-18 Published:2017-02-18
Contact: * E-mail: xxy2000@126.com
Supported by:
This work was supported by the National Natural Science Foundation of China (41471227).

摘要/Abstract

摘要： 农田土壤净氮矿化对土壤氮素流失和农业非点源污染有重要影响.以丹江口库区五龙池小流域夏玉米黄棕壤为例,进行原位矿化试验,通过与无覆膜耕作土壤相比较,研究覆膜耕作条件下土壤净氮矿化在夏玉米生长期内的变化.结果表明: 夏玉米整个生长期内,覆膜耕作土壤净氨化量、净硝化量和净氮矿化量均明显高于无覆膜土壤,分别高6.63、12.96和19.59 mg·kg^-1;覆膜耕作土壤净氨化速率表现为在苗期较高、抽穗期最低、成熟期增至最高的变化特征,而土壤净硝化和净氮矿化速率均呈现苗期较高、拔节期最低、成熟期升至最高的变化过程;覆膜耕作土壤净氮矿化速率均与土壤全氮和NO₃^--N含量、土壤含水量之间呈显著线性关系.覆膜可有效调节土壤水热条件,促进土壤净氮矿化.

Abstract: Soil net nitrogen mineralization in cropland has a great influence on both agricultural non-point source pollution and soil nitrogen loss. A field plot experiment was conducted to explore the temporal variation of soil net nitrogen mineralization under plastic film mulching ridge-furrow in Wulongchi small watershed during summer maize growing period. Results showed that the soil net ammonification, nitrification, and nitrogen mineralization were significantly greater than those of non-mulched treatment, and the differences were 6.63, 12.96 and 19.59 mg·kg^-1, respectively. During the summer maize growth period, the rate of soil net ammonification was high at seedling stage, low at heading stage, and high at maturation stage. Both the rates of soil net nitrification and nitrogen mineralization were high at jointing stage, low at heading stage, and high at maturation stage. The rate of soil net nitrogen mineralization under plastic film mulched had significant linear relation with the contents of soil total nitrogen, nitrate nitrogen, and soil water. In conclusion, the improved condition of soil water and temperature under plastic film mulched cultivation of summer maize in the growing period promoted soil net nitrogen mineralization.

王伟, 于兴修, 汉强, 徐苗苗, 任瑞, 张家鹏. 丹江口库区覆膜耕作土壤净氮矿化随夏玉米生长期的变化[J]. 应用生态学报, 2017, 28(2): 581-588.

WANG Wei, YU Xing-xiu, HAN Qiang, XU Miao-miao, REN Rui, ZHANG Jia-peng. Temporal variation of soil net nitrogen mineralization in summer maize growing period under plastic film mulched cultivation in Danjiangkou Reservoir Area, China.[J]. Chinese Journal of Applied Ecology, 2017, 28(2): 581-588.

参考文献

[1] Kader MA, Sleutel S, Begum SA, et al. Nitrogen mine-ralization in sub-tropical paddy soils in relation to soil mineralogy, management, pH, carbon, nitrogen and iron contents. European Journal of Soil Science, 2013, 64: 47-57
[2] Li M (李铭), Zhu L-C (朱利川), Zhang Q-F (张全发), et al. Impacts of different land use types on soil nitrogen mineralization in Danjiangkou Reservoir Area, China. Chinese Journal of Plant Ecology (植物生态学报), 2012, 36(6): 530-538 (in Chinese)
[3] Zhang HY, Liu QJ, Yu XX, et al. Effects of plastic mulch duration on nitrogen mineralization and leaching in peanut (Arachis hypogaea) cultivated land in the Yimeng Mountainous Area, China. Agriculture, Ecosystems and Environment, 2012, 158: 164-171
[4] Dessureault-Rompré J, Zebarth Bernie J, Georgallas A, et al. Temperature dependence of soil nitrogen mineralization rate: Comparison of mathematical models, refe-rence temperatures and origin of the soils. Geoderma, 2010, 157: 97-108
[5] Guntiñas ME, Leirós MC, Trasar-Cepeda C, et al. Effects of moisture and temperature on net soil nitrogen mineralization: A laboratory study. European Journal of Soil Biology, 2012, 48: 73-80
[6] Hu R, Wang XP, Pan YX, et al. Seasonal variation of net N mineralization under different biological soil crusts in Tengger Desert, North China. Catena, 2015, 127: 9-16
[7] Lin J-J (林俊杰), Zhang S (张帅), Liu D (刘丹), et al. Effect of seasonal temperature increasing on nitrogen mineralization in soil of the water level fluctuating zone of Three Gorge Tributary during the dry period. Environmental Science (环境科学), 2016, 37(2): 697-702 (in Chinese)
[8] Wang CH, Han XG, Xing XR. Effects of grazing exclusion on soil net nitrogen mineralization and nitrogen availability in a temperate steppe in northern China. Journal of Arid Environments, 2010, 74: 1287-1293
[9] Zhao H, Xiong YC, Li FM, et al. Plastic film mulch for half growing-season maximized WUE and yield of potato via moisture-temperature improvement in a semi-arid agroecosystem. Agricultural Water Management, 2012, 104: 68-78
[10] Zhang X-M (张仙梅), Huang G-B (黄高宝), Li L-L (李玲玲), et al. Effects of mulching patterns on spatio-temporal variation of soil nitrate and nitrogen utilization efficiency of maize on dry land. Agricultural Research in the Arid Areas (干旱地区农业研究), 2011, 29(5): 26-32 (in Chinese)
[11] Wang J-K (汪景宽), Liu S-G (刘顺国), Li S-Y (李双异). Effect of long-term plastic film mulching and fertilization on inorganic N distribution and organic N mi-neralization in Brown Earth. Journal of Soil and Water Conservation (水土保持学报), 2006, 20(6): 107-110 (in Chinese)
[12] Gan YT, Siddique KHM, Turner NC, et al. Ridge-furrow mulching systems: An innovative technique for boosting crop productivity in semiarid rain-fed environments. Advances in Agronomy, 2013, 118: 429-476
[13] Wang XK, Li ZB, Xing YY. Effects of mulching and nitrogen on soil temperature, water content, nitrate-N content and maize yield in the Loess Plateau of China. Agricultural Water Management, 2015, 161: 53-64
[14] Liu S-Y (刘胜尧), Zhang L-F (张立峰), Li Z-H (李志宏), et al. Effects of plastic mulch on soil moisture and temperature and limiting factors to yield increase for dry land spring maize in the North China. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(11): 3197-3206 (in Chinese)
[15] Liu Z-D (刘战东), Gao Y (高阳), Liu Z-G (刘祖贵), et al. Effects of rainfall characteristics and cove-ring methods on soil moisture of winter wheat. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2012, 28(13): 113-120 (in Chinese)
[16] Qi J-H (漆婧华), Zhang F (张峰), Wang Y (王莺), et al. Nitrogen dynamics under plastic mulching on the Loess Plateau. Acta Prataculturae Sinica (草业学报), 2014, 23(5): 13-23 (in Chinese)
[17] Liu Y, Tao Y, Wan KY, et al. Runoff and nutrient losses in citrus orchards on sloping land subjected to diffe-rent surface mulching practices in the Danjiangkou Reservoir area of China. Agricultural Water Management, 2012, 110: 34-40
[18] Lao J-Y (劳家柽). Handbook of Soil Chemical Analysis. Beijing: China Agriculture Press, 1988: 241-253
[19] Liu XR, Dong YS, Ren JQ, et al. Drivers of soil net nitrogen mineralization in the temperate grasslands in Inner Mongolia, China. Nutrient Cycling in Agroecosystems, 2010, 87: 59-69
[20] Liu X-R (刘杏认), Dong Y-S (董云社), Qi Y-C (齐玉春), et al. Soil net nitrogen mineralization in the typical temperate grassland. Environmental Science (环境科学), 2007, 28(3): 633-639 (in Chinese)
[21] Hai L, Li XG, Liu XE, et al. Plastic mulch stimulates nitrogen mineralization in urea-amended soils in a semiarid environment. Agronomy Journal, 2015, 107: 921-930
[22] Zhang Y-T (张亦涛), Wang H-Y (王洪媛), Liu H-B (刘宏斌), et al. Characteristics of field water and nitrogen leaching in a haplic luvisol soil based on large lysimeter. Scientia Agricultura Sinica (中国农业科学), 2016, 49(1): 110-119 (in Chinese)
[23] Xu L-G (徐力刚), Zhang Q (张奇), Xu J (徐进), et al. Migration and leaching losses of nutrients in relation to rainfall intensity. Acta Pedologica Sinica (土壤学报), 2008, 45(3): 437-444 (in Chinese)
[24] Han J-G (韩建刚), Bai H-Y (白红英), Qu D (曲东). Effects of clear plastic film on the change of soil N₂O discharge flux. China Environmental Science (中国环境科学), 2002, 22(3): 95-97 (in Chinese)
[25] Gao Y-J (高亚军), Li Y (李云), Li S-X (李生秀), et al. Effects of different wheat cultivation methods on residual nitrate nitrogen in soil in dryland. Acta Ecologica Sinica (生态学报), 2005, 25(11): 2901-2910 (in Chinese)
[26] Wu Y-P (伍玉鹏), Deng C-J (邓婵娟), Jiang Y-B (姜炎彬), et al. Effects of long-term different fertilization on fractions and mineralization of organic nitrogen in paddy soils. Journal of Agro-Environment Science (农业环境科学学报), 2015, 34(10): 1958-1964 (in Chinese)
[27] Zhu J-X (朱剑兴), Wang Q-F (王秋凤), He N-P (何念鹏), et al. Soil nitrogen mineralization and associated temperature sensitivity of different Inner Mongo-lian grasslands. Acta Ecologica Sinica (生态学报), 2013, 33(19): 6320-6327 (in Chinese)
[28] Steven B, Léveillé R, Pollard WH, et al. Microbial ecology and biodiversity in permafrost. Extremophiles, 2006, 10: 259-267
[29] Knoepp JD, Swank WT. Using soil temperature and moisture to predict forest soil nitrogen mineralization. Biology and Fertility of Soils, 2002, 36: 177-182
[30] Li R, Hou XQ, Jia ZK, et al. Effects on soil temperature, moisture, and maize yield of cultivation with ridge and furrow mulching in the rain fed area of the Loess Plateau, China. Agricultural Water Management, 2013, 116: 101-109
[31] Anikwe MAN, Mbah CN, Ezeaku PI, et al. Tillage and plastic mulch effects on soil properties and growth and yield of cocoyam (Colocasia esculenta) on an ultisol in southeastern Nigeria. Soil & Tillage Research, 2007, 93: 264-272

丹江口库区覆膜耕作土壤净氮矿化随夏玉米生长期的变化

Temporal variation of soil net nitrogen mineralization in summer maize growing period under plastic film mulched cultivation in Danjiangkou Reservoir Area, China.

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