[1] |
WANG Xiyang, LI Xiaohui, XIN Zaijun, HE Shifu, SUN Xiaoyan, LI Liang.
Variations of mean residence time of organic carbon pools in red paddy soil in a typical area in recent 10 years.
[J]. Chinese Journal of Ecology, 2023, 42(3): 561-568.
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[2] |
WEN Xin, CHEN Xiao-min, GUO Bi-lin, JING Feng, HU Shi-min, LI Lian-qing.
Effects of biochar addition on the availability of heavy metals and soil quality in red paddy soil.
[J]. cje, 2020, 39(4): 1183-1190.
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[3] |
LI Wen-jun, ZENG Xi-mei, PENG Bao-fa, YANG Ji-feng, ZHAO Di.
Modeling of organic nitrogen mineralization in paddy soils in Dongting Lake region of China.
[J]. cje, 2019, 38(5): 1392-1401.
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[4] |
BAI Zhi-gang, ZHANG Jun-hua, HUANG Jie, ZHU Lian-feng, CAO Xiao-chuang, ZHU Chun-quan, ZHONG Chu, JIN Qian-yu.
Effects of nitrogen regime on nitrogen metabolism of rice and nitrogen transformation and translocation in paddy soils.
[J]. cje, 2018, 37(11): 3440-3448.
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[5] |
FU Yu-hao1,2,3, LI Feng-mei1,3*, GUO Shu-hai1,3, WU Bo1,3, ZHANG Ling-yan1,3.
Cadmium pollution in soil and rice plants in Zhangyizhan Town of Zhangshi irrigation area of Shenyang.
[J]. cje, 2017, 36(7): 1965-1972.
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[6] |
CHEN Xiao-fen1,2, LI Zhong-pei1,2**, LIU Ming1, JIANG Chun-yu1, WU Meng1.
Effect of longterm fertilizations on microbial community structure and functional diversity in paddy soil of subtropical China.
[J]. cje, 2015, 34(7): 1815-1822.
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[7] |
XIAO Yan-zi1, ZHOU Wei-jun1**, GU Hai-bin2, LIU Pei1, XIE Tian-yang1, TAN Jie1.
Distribution characteristics of different organic carbon forms in ancient paddy soils at Liyang plain.
[J]. cje, 2015, 34(6): 1644-1649.
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[8] |
DONG Chun-hua1,2, ZENG Xi-bai3**, WEN Shi-lin2, GAO Ju-sheng2.
Effects of long-term fertilization on weed community and early rice yield of reddish paddy field.
[J]. cje, 2015, 34(11): 3079-3085.
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[9] |
YI Ya-nan, YIN Li-chu**, ZHANG Lei.
Effects of water table and fertilization on organic carbon fractions in paddy soil.
[J]. cje, 2014, 33(5): 1284-1289.
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[10] |
ZHANG Lei, YIN Li-chu**, YI Ya-nan, GAO De-cai, FU Wei-wei.
Effects of soil inherent and exogenous organic carbon on carbon dioxide flux of paddy soil.
[J]. cje, 2013, 32(7): 1717-1722.
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[11] |
SHENG Hao1, ZHOU Ping2, YUAN Hong1, LIAO Chao-lin1, HUANG Yun-xiang1, ZHOU Qing1, ZHANG Yang-zhu1**.
Profile distribution characteristics of dissolved organic carbon in different types of subtropical paddy soils.
[J]. cje, 2013, 32(7): 1698-1702.
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[12] |
LI Ling1,2,3;XIAO He-ai1; TONG Cheng-li1;DING Long-jun1;SHENG Rong1.
Responses of active organic carbon in upland soil and paddy soil of red earth region to exogenous organic substrates: A laboratory incubation study.
[J]. cje, 2008, 27(12): 2178-2183 .
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[13] |
JIAO Shao-jun1,2; HU Xia-min3; PAN Gen-xing1; ZHOU Hong-jie3; XU Xiang-dong3 .
Effects of fertilization on nitrogen and phosphorus run-off loss from Qingzini paddy soil in Taihu Lake region during rice growth season
[J]. cje, 2007, 26(04): 495-500 .
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[14] |
WANG Genmei;ZHOU Lixiang.
Effects of water-soluble organic materials on nitrogen and phosphorus content and use efficiency in a paddy soil
[J]. cje, 2006, 25(01): 13-18 .
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[15] |
ZhaoYi, WuYanming.
Dry Land-Paddy Soil Shifting and Eco-Environmental Evolution of Soil at Liushu Town of Yingkou City
[J]. cje, 1994, (3): 35-40.
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