Effects of straw mulching on maize photosynthetic characteristics and rhizosphere soil micro-ecological environment

文献类型: 外文期刊

第一作者: Zhang, Xiangqian

作者: Zhang, Xiangqian;Cao, Chengfu;Qian, Yiliang;Qian, Yiliang

作者机构:

关键词: Chlorophyll content;enzyme activities;microbe quantity;photosynthesis;yield;Zea mays

期刊名称:CHILEAN JOURNAL OF AGRICULTURAL RESEARCH ( 影响因子:1.677; 五年影响因子:1.806 )

ISSN: 0718-5839

年卷期: 2015 年 75 卷 4 期

页码:

收录情况: SCI

摘要: Straw mulching is an effective measure to improve soil properties, crop growth, and yield. To further understand the advantage mechanisms of straw mulching, a field experiment with seven straw mulching levels (0 to 18 000 kg ha(-1)) was conducted to study the effects of straw mulching on maize (Zea mays L.) photosynthesis and rhizosphere soil micro-ecological environment. Results showed that maize chlorophyll content was evidently affected by straw mulching, and the highest chlorophyll content was at 12 000 kg ha(-1) (M4). Straw mulching could significantly improve the photosynthetic characteristics of maize, and the difference between M4 and 0 kg ha(-1) (M0) was significant. There was as trend change in soil microbe quantity; it first increased and then decreased with increasing straw mulching levels, and the most suitable straw mulching level for different types of microorganisms was 9000 kg ha(-1) (M3) or M4. Straw mulching significantly enhanced soil enzyme urease, invertase, dehydrogenase, and protease activities, but when the straw mulching level reached a certain level, the effect of straw mulching was no longer apparent and even had some adverse effects at straw mulching levels higher than 15 000 kg ha(-1) (M5). Yield in M4 (10 186.84 kg ha(-1)) was the highest compared with M0 (9365.12 kg ha(-1)), and yield significantly increased by 8.8%. Correlation analyses indicated that the soil microbe quantity and aforementioned enzyme activities were all significantly and positively correlated with maize chlorophyll content, photosynthetic rate, and yield. Findings suggest that straw mulching can apparently increase soil microbe quantity and enzyme activities and improve crop photosynthesis and yield; the M4 level is the most reasonable straw mulching level in this study under comprehensive consideration, and a straw mulching level that is too high (over M5) will have some negative effects.

分类号:

  • 相关文献

[1]Differences in maize physiological characteristics, nitrogen accumulation, and yield under different cropping patterns and nitrogen levels. Zhang, Xiangqian,Huang, Guoqin,Zhao, Qiguo. 2014

[2]Grafting helps improve photosynthesis and carbohydrate metabolism in leaves of muskmelon. Liu, Yi-Fei,Qi, Hong-Yan,Qi, Ming-Fang,Xu, Chuan-Qiang,Li, Yan,Li, Tian-Lai,Bai, Chun-Ming,Hao, Jing-Hong,Hao, Jing-Hong.

[3]Effects of low temperature and low irradiance on the physiological characteristics and related gene expression of different pepper species. Wei, G.,Zhang, Z. Q.,Dai, X. Z.,Zou, X. X..

[4]Photosynthetic and physiological responses of foxtail millet (Setaria italica L.) to low-light stress during grain-filling stage. Yuan, X. Y.,Huang, L.,Wen, Y. Y.,Dong, S. Q.,Song, X. E.,Wang, H. F.,Guo, P. Y.,Zhang, L. G.,Guo, P. Y.,Qi, X..

[5]Relationships between soil respiration and photosynthesis-related spectral vegetation indices in two cropland ecosystems. Huang, Ni,Niu, Zheng,Zhan, Yulin,Xu, Shiguang,Wu, Chaoyang,Gao, Shuai,Hou, Xuehui,Cai, Dewen,Huang, Ni,Xu, Shiguang,Hou, Xuehui,Cai, Dewen,Tappert, Michelle C.,Huang, Wenjiang.

[6]Heterosis in yield, endotoxin expression and some physiological parameters in Bt transgenic cotton. Dong, H. Z.,Li, W. J.,Tang, W.,Li, Z. H.,Zhang, D. M.. 2007

[7]Characterization of high-yield performance as affected by genotype and environment in rice. Chen, Song,Zeng, Fang-rong,Zhang, Guo-ping,Pao, Zong-zhi. 2008

[8]MAIZE GROWTH, YIELD FORMATION AND WATER-NITROGEN USAGE IN RESPONSE TO VARIED IRRIGATION AND NITROGEN SUPPLY UNDER SEMI-ARID CLIMATE. Ashraf, Umair,Pan, Shenggang,Tang, Xiangru,Ashraf, Umair,Pan, Shenggang,Tang, Xiangru,Salim, Mazhar Noor,Sher, Alam,Khan, Aqil,Sabir, Sabeeh-ur-Rasool. 2016

[9]Effects of watering regime and nitrogen application rate on the photosynthetic parameters, physiological characteristics, and agronomic traits of rice. Cao, Xiaochuang,Zhong, Chu,Sajid, Hussain,Zhu, Lianfeng,Zhang, Junhua,Jin, Qianyu,Wu, Lianghuan.

[10]Leaf photosynthesis and yield components of mung bean under fully open-air elevated [CO2]. Gao Ji,Han Xue,Lin Er-da,Hao Xing-yu,Gao Ji,Li Ping,Zong Yu-zheng,Dong Qi,Hao Xing-yu,Seneweera, Saman. 2015

[11]Data assimilation for crop yield and CO2 fixation monitoring in Asia by a photosynthetic sterility model using satellites and meteorological data. Kaneko, Daijiro,Kumakura, Toshiro,Yang, Peng. 2009

[12]Over-expression of phosphoenolpyruvate carboxylase cDNA from C4 millet (Seteria italica) increase rice photosynthesis and yield under upland condition but not in wetland fields. Ding, Zai-Song,Huang, Su-Hua,Zhou, Bao-Yuan,Sun, Xue-Fang,Zhao, Ming. 2013

[13]Carbon partitioning as validation methods for crop yields and CO2 sequestration monitoring in Asia using a photosynthetic-sterility model. Kaneko, Daijiro,Yang, Peng,Kumakura, Toshiro. 2010

[14]Short-term water management at early filling stage improves early-season rice performance under high temperature stress in South China. Kong, Leilei,Ashraf, Umair,Cheng, Siren,Rao, Gangshun,Mo, Zhaowen,Tian, Hua,Pan, Shenggang,Tang, Xiangru,Kong, Leilei,Ashraf, Umair,Cheng, Siren,Rao, Gangshun,Mo, Zhaowen,Tian, Hua,Pan, Shenggang,Tang, Xiangru.

[15]Mulching affects photosynthetic and chlorophyll a fluorescence characteristics during stage III of peach fruit growth on the rain-fed semiarid Loess Plateau of China. Wang, Chenbing,Chen, Baihong,Wang, Falin,Wang, Chenbing,Wang, Hong,Zhao, Xiumei,Wang, Falin.

[16]Improved mycelia and polysaccharide production of Grifola frondosa by controlling morphology with microparticle Talc. Tao, Ting-Lei,Cui, Feng-Jie,Chen, Xiao-Xiao,Sun, Wen-Jing,Huang, Da-Ming,Liu, Wei-Min,Zhang, Jinsong,Yang, Yan,Wu, Di,Cui, Feng-Jie,Sun, Wen-Jing. 2018

[17]Changes of soil enzyme activities under different tillage practices in the Chinese Loess Plateau. Jin, K.,Cai, D. X.,Jin, J. Y.,Jin, K.,Sleutel, S.,Buchan, D.,De Neve, S.,Gabriels, D.. 2009

[18]Effects of seagrass leaf litter decomposition on sediment organic carbon composition and the key transformation processes. Liu, SongLin,Jiang, ZhiJian,Wu, YunChao,Zhao, ChunYu,Zhang, JingPing,Shen, Yuan,Huang, XiaoPing,Liu, SongLin,Wu, YunChao,Zhao, ChunYu,Shen, Yuan,Huang, XiaoPing,Deng, YiQin. 2017

[19]Structure, Expression, and Functional Analysis of the Hexokinase Gene Family in Cassava. Geng, Meng-Ting,Wang, Yun-Lin,Hu, Xin-Wen,Yao, Yuan,Li, Rui-Mei,Fu, Shao-Ping,Duan, Rui-Jun,Liu, Jiao,Guo, Jian-Chun,Wu, Xiao-Hui,Sun, Chong. 2017

[20]Impact of Bt-transgenic rice (SHK601) on soil ecosystems in the rhizosphere during crop development. Wei, M.,Tan, F.,Zhu, H.,Cheng, K.,Wu, X.,Wang, J.,Zhao, K.,Tang, X.,Wei, M.,Tan, F.,Zhu, H.,Cheng, K.,Wu, X.,Wang, J.,Zhao, K.,Tang, X..

作者其他论文 更多>>

微信小程序