Scientia Agricultura Sinica ›› 2020, Vol. 53 ›› Issue (4): 795-801.doi: 10.3864/j.issn.0578-1752.2020.04.011
• SOIL & FERTILIZER·WATER-SAVING IRRIGATION·AGROECOLOGY & ENVIRONMENT • Previous Articles Next Articles
Peng YAN,WenYan HAN(),Xin LI,LiPing ZHANG,Lan ZHANG
[1] | 农业农村部种植业管理司. 2017年全国各产茶省茶园面积、产量和产值统计. 中国茶叶, 2018(6):27. |
Department of Planting Management, Ministry of Agriculture and Rural Affairs. Statistics on area, output and output value of tea gardens in tea producing provinces across the country in 2017. China Tea, 2018(6):27. (in Chinese) | |
[2] | 韩文炎, 阮建云, 林智, 吴洵, 许允文, 石元值, 马立峰 . 茶园土壤主要营养障碍因子及系列茶树专用肥的研制. 茶叶科学, 2002,22(1):70-74. |
HAN W Y, RUAN J Y, LIN Z, WU X, XU Y W, SHI Y Z, MA L F . The major nutritional limiting factors in tea soils and development of tea speciality fertilizer series. Journal of Tea Science, 2002,22(1):70-74. (in Chinese) | |
[3] | 廖万有, 王宏树, 苏有键, 康启兵 . 我国茶园土壤的退化问题及其防治. 茶叶科技创新与产业发展学术研讨会, 2009. |
LIAO W Y, WANG H S, SU Y J, KANG Q B . Soil degeneration and its prevention in Chinese tea gardens. Symposium of Tea Science and Technology Innovation and Industry Development, 2009. (in Chinese) | |
[4] | YAN P, SHEN C, FAN L C, LI X, ZHANG L P, ZHANG L, HAN W Y . Tea planting affects soil acidification and nitrogen and phosphorus distribution in soil. Agriculture Ecosystems & Environment, 2018,254:20-25. |
[5] | YANG X D, NI K, SHI Y Z, YI X Y, ZHANG Q F, FANG L, MA L F, RUAN J Y . Effects of long-term nitrogen application on soil acidification and solution chemistry of a tea plantation in China. Agriculture, Ecosystems & Environment, 2018,252:74-82. |
[6] | 林智, 吴洵, 俞永明 . 土壤pH值对茶树生长及矿质元素吸收的影响. 茶叶科学, 1990(2):27-32. |
LIN Z, WU X, YU Y M . Influence of soil pH on the growth and mineral elements absorption of tea plant. Journal of Tea Science, 1990(2):27-32. (in Chinese) | |
[7] | 阮建云, 吴洵 . 钾、镁营养供应对茶叶品质和产量的影响. 茶叶科学, 2003,23(增刊):21-26. |
RUAN J Y, WU X . Productivity and quality response of tea to balanced nutrient management including K and Mg. Journal of Tea Science, 2003,23(suppl.):21-26. (in Chinese) | |
[8] | 章明奎, 方利平, 张履勤 . 酸化和有机质积累对茶园土壤铅生物有效性的影响. 茶叶科学, 2005,25(3):159-164. |
ZHANG M K, FANG L P, ZHANG L Q . Effects of acidification and organic matter accumulation on lead bio-availability in tea garden soils. Journal of Tea Science, 2005,25(3):159-164. (in Chinese) | |
[9] | 孙继海, 吴子铭 . 茶园土壤活性酸度动态、土壤酸化及最适酸度的初步研究. 土壤肥料, 1980(3):16-23. |
SUN J H, WU Z M . Dynamic acidity dynamics of soil in tea gardens: preliminary study on soil acidification and optimum acidity. Soil and Fertilizer Sciences in China, 1980(3):16-23. (in Chinese) | |
[10] | WANG H, XU R K, WANG N, LI X H . Soil acidification of alfisols as influenced by tea cultivation in eastern China. Pedosphere, 2010,20(6):800-806. |
[11] | LI S Y, LI H X, YANG C L, WANG Y D, XUE H, NIU Y F . Rates of soil acidification in tea plantations and possible causes. Agriculture, Ecosystems & Environment, 2016,233:60-66. |
[12] | 张炳铃 . 安溪县茶园土壤养分特性评价. 福建农业科技, 2012(7):40-42. |
ZHANG B L . Evaluation on soil nutrient characters in tea garden of Anxi county. Fujian Agricultural Science and Technology, 2012(7):40-42. (in Chinese) | |
[13] | 张福锁 . 我国农田土壤酸化现状与影响. 民主与科学, 2016(6):26-27. |
ZHANG F S . Present situation and influence of farmland soil acidification in China. Democracy & Science, 2016(6):26-27. (in Chinese) | |
[14] | 徐仁扣 . 土壤酸化及其调控研究进展. 土壤, 2015,47(2):238-244. |
XU R K . Research progresses in soil acidification and its control. Soils, 2015,47(2):238-244. (in Chinese) | |
[15] | 徐仁扣, 李九玉, 周世伟, 徐明岗, 沈仁芳 . 我国农田土壤酸化调控的科学问题与技术措施. 中国科学院院刊, 2018,33(2):160-167. |
XU R K, LI J Y, ZHOU S W, XU M G, SHEN R F . Scientific issues and controlling strategies of soil acidification of croplands in China. Bulletin of Chinese Academy of Sciences, 2018,33(2):160-167. (in Chinese) | |
[16] | GUO J H, LIU X J, ZHANG Y, SHEN J L, HAN W X, ZHANG W F, CHRISTIE P GOULDING K W P, VITOUSEK P M, ZHANG F S . Significant acidification in major Chinese croplands. Science, 2010,327:1008-1010. |
[17] | 朱齐超 . 区域尺度中国土壤酸化定量研究及模型分析[D]. 北京: 中国农业大学, 2017. |
ZHU Q C . Quantification and modelling of soil acidification at regional scale of China[D]. Beijing: China Agricultural University, 2017. (in Chinese) | |
[18] | 全国农业技术推广服务中心. 测定配方施肥土壤基础养分数据集 北京:中国农业出版社, 2015. |
National Agricultural Technology Extension Service Center. Data Set of Soil Ingenious Fertility From the Project of Testing Soil for Formulated Fertilization. Beijing:China Agriculture Press, 2015. (in Chinese) | |
[19] | 孙波 . 红壤退化阻控与生态修复. 北京:科学出版社, 2011. |
SUN B. Control and Ecological Rehabilitation of Red Soil Degradation. Beijing:Science Press, 2011. (in Chinese) | |
[20] | 杨亚军 . 中国茶树栽培学. 上海:上海科学技术出版社, 2005. |
YANG Y J. Tea Cultivation in China. Shanghai:Shanghai Scientific and Technical Press, 2005. (in Chinese) | |
[21] | WAN Q, XU R K, LI X H . Proton release from tea plant (Camellia sinensis L.) roots induced by Al(III) under hydroponic conditions. Soil Research, 2012,50(6):482-488. |
[22] | WAN Q, XU R K, LI X H . Proton release from tea plant (Camellia sinensis L.) roots as affected by five cations in solution culture. Plant, Soil and Environment, 2012,58(9):429-434. |
[23] | 丁瑞兴, 黄骁 . 茶园—土壤系统铝和氟的生物地球化学循环及其对土壤酸化的影响. 土壤学报, 1991(3):229-236. |
DING R X, HUANG X . Biogeochemical cycle of aluminium and fluorine in tea garden soil system and its relationship to soil acidification. Acta Pedologica Sinica, 1991(3):229-236. (in Chinese) | |
[24] | 宋木兰, 刘友林 . 茶园—土壤系统的物质循环对土壤酸化的影响. 茶叶科学, 1990(2):19-26. |
SONG M L, LIU Y L . Effect of biogeochemical cycle in tea garden on the soil acidification. Journal of Tea Science, 1990(2):19-26. (in Chinese) | |
[25] | RUAN J Y, MA L F, SHI Y Z, ZHANG F S . Effects of litter incorporation and nitrogen fertilization on the contents of extractable aluminium in the rhizosphere soil of tea plant (Camallia sinensis(L.) O. Kuntze). Plant and Soil, 2004,263(1):283-296. |
[26] | 万青, 徐仁扣, 黎星辉 . 氮素形态对茶树根系释放质子的影响. 土壤学报, 2013,50(4):84-89. |
WAN Q, XU R K, LI X H . Effect of forms of nitrogen on proton release from tea plant roots under hydroponic condition. Acta Pedologica Sinica, 2013,50(4):84-89. (in Chinese) | |
[27] | ZHU Q C, VRIES W D, LIU X J, HAO T X, ZENG M F, SHEN J B, ZHANG F S . Enhanced acidification in Chinese croplands as derived from element budgets in the period 1980-2010. Science of the Total Environment, 2017,618:1497-1505. |
[28] | VRIES W, BREEUWSMA A . The relation between soil acidification and element cycling. Water Air and Soil Pollution, 1987,35(3):293-310. |
[29] | MAO Q G, LU X K, ZHOU K J, CHEN H, ZHU X M, MORI T K, MO J M . Effects of long-term nitrogen and phosphorus additions on soil acidification in an N-rich tropical forest. Geoderma, 2017,285:57-63. |
[30] | TIAN D S, NIU S L . A global analysis of soil acidification caused by nitrogen addition. Environmental Research Letters, 2015,10(2):024019. |
[31] | 徐明岗, 文石林, 周世伟 . 南方地区红壤酸化及综合防治技术. 科技创新与品牌, 2016(7):74-77. |
XU M G, WEN S L, ZHOU S W . Acidification and comprehensive control technology of red soil in southern China. Sci-Tech Innovations and Brands, 2016(7):74-77. (in Chinese) | |
[32] | CAI Z J, WANG B R, XU M G, ZHANG H M, HE X H, ZHANG L, GAO S D . Intensified soil acidification from chemical N fertilization and prevention by manure in an 18-year field experiment in the red soil of southern China. Journal of Soils and Sediments, 2015,15(2):260-270. |
[33] | CAI A D, ZHANG W J, XU M G, WANG B R, WEN S L, ATIZAZ S . Soil fertility and crop yield after manure addition to acidic soils in South China. Nutrient Cycling in Agroecosystems, 2018,111(1):61-72. |
[34] | CAI A D, XU M G, WANG B R, ZHANG W J, LIANG G P, HOU E Q, LUO Y Q . Manure acts as a better fertilizer for increasing crop yields than synthetic fertilizer does by improving soil fertility. Soil & Tillage Research, 2018,189:168-175. |
[35] | 马立锋, 陈红金, 单英杰, 姜铭北, 张耿苗, 吴林土, 阮建云, 吕健飞, 石元值, 潘理勋, 黄承沐, 刘林敏, 梁碧元, 王美琴, 潘建清 . 浙江省绿茶主产区茶园施肥现状及建议. 茶叶科学, 2013,33(1):74-84. |
MA L F, CHEN H J, SHAN Y J, JIANG M B, ZHANG G M, WU L S, RUAN J Y, LÜ J F, SHI Y Z, PAN L X, HUANG C M, LIU L M, LIANG B Y, WANG M Q, PAN J Q . Status and suggestions of tea garden fertilization on main green tea-producing counties in Zhejiang Province. Journal of Tea Science, 2013, 33(1):74-84. (in Chinese) | |
[36] | CHEN C F, LIN J Y . Estimating the gross budget of applied nitrogen and phosphorus in tea plantations. Sustainable Environment Research, 2016: S24:124-130. |
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