[1]王维君. 我国南方一些酸性土壤铝存在形态的初步研究[J]. 热带亚热带土壤科学,1995,4(1):1-8.
[2]Kochian L V,Hoekenga O A,Pieros M A. How do crop plants tolerate acid soils? mechanisms of aluminum tolerance and phosphorous efficiency[J]. Annual Review of Plant Biology,2004,55(1):459-493.
[3]Pothuluri J V,Kissel D E,Whitney D A,et al. Phosphorus uptake from soil layers having different soil test phosphorus levels[J]. Agronomy Journal,1986,78(6):991-994.
[4]Driscoll C T,Breemen N V,Mulder J. Aluminum chemistry in a forested spodosol[J]. Soil Science,1985,49(2):437-444.
[5]杜振宇,刘方春,马丙尧,等. 滨海盐碱地人工刺槐绒毛白蜡混交林的根系分布与细根生长[J]. 林业科学,2014,50(3):10-15.
[6]沈宏,严小龙. 铝对植物的毒害和植物抗铝毒机理及其影响因素[J]. 土壤通报,2001,32(6):281-285.
[7]Liao H,Wan H Y,Shaff J,et al. Phosphorus and aluminum interactions in soybean in relation to aluminum tolerance. Exudation of specific organic acids from different regions of the intact root system[J]. Plant Physiology,2006,141(2):674-684.
[8]Delhaize E,Ryan P R. Aluminum toxicity and tolerance in plants[J]. Plant Physiology,1995,107(2):315-321.
[9]严小龙,廖红,年海. 根系生物学原理与应用[M]. 北京:科学出版社,2007:72-114.
[10]庄瑞林. 中国油茶[M]. 2版. 北京:中国林业出版社,2008:3.
[11]国家林业局. 全国油茶产业发展规划(2009—2012年)[M]. 北京:中国林业出版社,2009:2,9.
[12]万延慧,年海,严小龙. 大豆种质耐低磷与耐铝毒部分指标及其相互关系的研究[J]. 植物营养与肥料学报,2001,7(2):199-204.
[13]Pellet D M,Papernik L A,Kochian L V. Multiple aluminum-resistance mechanisms in wheat (roles of root apical phosphate and malate exudation)[J]. Plant Physiology,1996,112(2):591-597.
[14]李金航,齐秀慧,徐程扬,等. 华北4产地黄栌幼苗根系形态对干旱胁迫的短期响应[J]. 北京林业大学学报,2014,36(1):48-54.
[15]Kinraide T B,Arnold R C,Baligar V C. A rapid assay for aluminium phytotoxicity at submicromolar concentrations[J]. Physiologia Plantarum,1985,65(3):245-250.
[16]曲继松,张丽娟,冯海萍,等. 根域限制对柠条基质黄瓜幼苗生长及气体交换参数的影响[J]. 江苏农业学报,2015,31(1):130-133.
[17]Zhao J,Fu J B,Liao H,et al. Characterization of root architecture in an applied core collection for phosphorus efficiency of soybean germplasm[J]. Chinese Science Bulletin,2004,49(15):1611-1620.
[18]邵继锋,陈荣府,董晓英,等. 利用分根技术研究小麦铝磷交互作用[J]. 江苏农业学报,2016,32(1):78-83.
[19]Wenzl P,Patio G M,Chaves A L,et al. The high level of aluminum resistance in signalgrass is not associated with known mechanisms of external aluminum detoxification in root apices[J]. Plant Physiology,2001,125(3):1473-1484.
[20]Gaume A,Mchler F,Frossard E. Aluminum resistance in two cultivars of Zea mays L.:root exudation of organic acids and influence of phosphorus nutrition[J]. Plant and Soil,2001,234(1):73-81.
[21]Zheng S J,Yang J L,He Y F,et al. Immobilization of aluminum with phosphorus in roots is associated with high aluminum resistance in buckwheat[J]. Plant Physiology,2005,138(1):297-303.
[22]何维明. 不同生境中沙地柏根面积分布特征[J]. 林业科学,2000,36(5):17-21.
[1]滕维超,刘少轩,刘新亮,等.不同种植模式对油茶成林土壤有机碳及养分特征的影响[J].江苏农业科学,2013,41(05):323.
Teng Weichao,et al.Influence of different planting modes on organic carbon and nutrient characteristics in soils of Camellia oleifera forest[J].Jiangsu Agricultural Sciences,2013,41(12):323.
[2]周乃富,谭晓风,袁军.林下养鸡对油茶林地土壤以及植株养分的影响[J].江苏农业科学,2014,42(08):341.
Zhou Naifu,et al.Effects of feeding chicken under Camellia oleifera woods on nutrient of soil and plant[J].Jiangsu Agricultural Sciences,2014,42(12):341.
[3]王立博,张婷,王敬力,等.油茶内生真菌DNA提取及SRAP反应体系的建立[J].江苏农业科学,2013,41(12):37.
Wang Libo,et al.Extraction of DNA from Camellia oleifera endophytic fungi and establishment of SRAP reaction system[J].Jiangsu Agricultural Sciences,2013,41(12):37.
[4]王华,胡锦珍,胡冬南,等.不同肥料对油茶林土壤微生物及酶活性的影响[J].江苏农业科学,2016,44(06):461.
Wang Hua,et al.Effects of different fertilization treatments on soil microorganisms and enzyme activities in Camellia oleifera forest[J].Jiangsu Agricultural Sciences,2016,44(12):461.
[5]周德明,艾芹,周国英.12种植物对油茶炭疽病菌和软腐病菌的抑制活性[J].江苏农业科学,2015,43(06):121.
Zhou Deming,et al.Inhibitory activity of 12 kinds of plants to Camellia anthrax and soft rot pathogen[J].Jiangsu Agricultural Sciences,2015,43(12):121.
[6]罗汉东,胡冬南,朱丛飞,等.不同施肥模式对油茶植株营养生长和土壤养分的影响[J].江苏农业科学,2016,44(08):272.
Luo Handong,et al.Effects of different fertilization modes on vegetative growth and soil nutrient of tea-oil tree[J].Jiangsu Agricultural Sciences,2016,44(12):272.
[7]李晶,谢成建,玉永雄,等.植物耐铝机制研究进展[J].江苏农业科学,2016,44(12):16.
Li Jing,et al.Research progress on mechanism of aluminum tolerance in plants[J].Jiangsu Agricultural Sciences,2016,44(12):16.
[8]黄文,陈颍卓,庄远红.油茶根际与非根际土壤养分含量和微生物数量的季节变化[J].江苏农业科学,2017,45(19):265.
Huang Wen,et al.Seasonal variation of soil nutrient contents and microbial quantity in rhizosphere and non-rhizosphere soil of camellia[J].Jiangsu Agricultural Sciences,2017,45(12):265.
[9]陈丽文.抗冻剂对低温下油茶的生理作用[J].江苏农业科学,2018,46(03):103.
Chen Liwen.Physiological effects of cryoprotectants on Camellia oleifera at low temperature[J].Jiangsu Agricultural Sciences,2018,46(12):103.
[10]詹孝慈,罗在柒,武忠亮,等.不同栽培基质对油茶容器苗生长和光合特性的影响[J].江苏农业科学,2018,46(21):123.
Zhan Xiaoci,et al.Effects of different cultural substrates on growth and photosynthetic characteristics of container seedlings of Camellia oleifera Abel.[J].Jiangsu Agricultural Sciences,2018,46(12):123.