土壤磷素地理平衡点研究
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摘要
耕地资源是人类赖以生存的基础,耕地的可持续利用研究越来越重要,耕地土产力更新能力则是衡量耕地利用系统持续性的前提标准。本研究通过对土壤磷素地理平衡点进行指标选取和利用,用系统的观点揭示土壤磷素循环的过程及其更新能力,为耕地磷素生产力更新能力评价、耕地磷素系统的可持续管理提供了一些依据和方法。
土壤磷素地理平衡点指在特定的地理生物气候背景下,土壤磷素系统循环达到相对稳定平衡时的量化指标的数量水平,它的指标选取和求取方法应根据研究目的需要来确定。本研究根据代表性原则、灵敏性原则、稳定性原则和可度量原则,选定Ca_2-P作为雄县土壤磷素地理平衡点的描述指标,根据灰色系统预测理论,用数学求极限的方法,得雄县土壤磷素内源地理平衡点(CK处理)为3.2mg/kg,-P、1/2P(P_2O_s112.5kg/hm~2)和全P处理(P_2O_5225kg/hm~2)的土壤磷素外源地理平衡点分别为3.6mg/kg、8.6mg/kg和14.2mg/kg。
利用模糊数学隶属函数S型模型,把雄县土壤磷素外源、内源地理平衡点分别作为上下两个阈值,对该土壤磷素系统更新状况和磷素肥力进行评价,全P处理土壤磷素系统更新状况最佳,磷素肥力水平最高,CK、-P处理磷素肥力水平最低,土壤磷素系统更新状况最差,1/2P处理居中。应用土壤磷素外源更新系数进行耕地磷素持续性管理评价,1/2P处理是可持续性施肥战略的最佳方案。
Cultivated land resource is the foundation of mankind's survival, and study on sustainable cultivated land use is coming to be the focus of international research.. The renew-ability of cultivated land's productivity is the first standard to evaluate its use-system's sustainability. In this paper, some basses and methods are established for these evaluations by selecting proper index and using the geographical point of soil phosphorus equilibrium.
The geographical point of soil phosphorus equilibrium refers to some quantitative characters of soil phosphorus system when its cycle becomes steady relatively in certain geographical, biological and climatic backgrounds. Its index and seeking method are determined differently in different studies. This paper chose Ca^-P as the index, based on its sensitiveness, stability, representatively and measurability: figured out the endogenesis geographical point of soil phosphorus equilibrium(of CK treat) as 3.2mg/kg, the exogenous geographical points of soil phosphorus equilibrium of-P, 1/2P (P2O5112.5kg/hm:) and complete P ( P2O5225kg/ hm2) as 3.6 mg/kg,8.6 mg/kg, and 14.2 mg/kg respectively.
Using endogenesis and exogenous geographical points of soil phosphorus equilibrium as the two turning points in the S-type membership function, based on fuzzy mathematics, to evaluate the renewing status and fertility of Xiongxian country's soil phosphorus system. The results are that complete P treat is the best, CK and -P are in the lowest, 1/2P mediates. For the sustainable fertilization strategy, 1/2P is the best scheme, according to the evaluation of various treatments' exogenous renewing coefficient of soil phosphorus.
土壤磷素地理平衡点指在特定的地理生物气候背景下,土壤磷素系统循环达到相对稳定平衡时的量化指标的数量水平,它的指标选取和求取方法应根据研究目的需要来确定。本研究根据代表性原则、灵敏性原则、稳定性原则和可度量原则,选定Ca_2-P作为雄县土壤磷素地理平衡点的描述指标,根据灰色系统预测理论,用数学求极限的方法,得雄县土壤磷素内源地理平衡点(CK处理)为3.2mg/kg,-P、1/2P(P_2O_s112.5kg/hm~2)和全P处理(P_2O_5225kg/hm~2)的土壤磷素外源地理平衡点分别为3.6mg/kg、8.6mg/kg和14.2mg/kg。
利用模糊数学隶属函数S型模型,把雄县土壤磷素外源、内源地理平衡点分别作为上下两个阈值,对该土壤磷素系统更新状况和磷素肥力进行评价,全P处理土壤磷素系统更新状况最佳,磷素肥力水平最高,CK、-P处理磷素肥力水平最低,土壤磷素系统更新状况最差,1/2P处理居中。应用土壤磷素外源更新系数进行耕地磷素持续性管理评价,1/2P处理是可持续性施肥战略的最佳方案。
Cultivated land resource is the foundation of mankind's survival, and study on sustainable cultivated land use is coming to be the focus of international research.. The renew-ability of cultivated land's productivity is the first standard to evaluate its use-system's sustainability. In this paper, some basses and methods are established for these evaluations by selecting proper index and using the geographical point of soil phosphorus equilibrium.
The geographical point of soil phosphorus equilibrium refers to some quantitative characters of soil phosphorus system when its cycle becomes steady relatively in certain geographical, biological and climatic backgrounds. Its index and seeking method are determined differently in different studies. This paper chose Ca^-P as the index, based on its sensitiveness, stability, representatively and measurability: figured out the endogenesis geographical point of soil phosphorus equilibrium(of CK treat) as 3.2mg/kg, the exogenous geographical points of soil phosphorus equilibrium of-P, 1/2P (P2O5112.5kg/hm:) and complete P ( P2O5225kg/ hm2) as 3.6 mg/kg,8.6 mg/kg, and 14.2 mg/kg respectively.
Using endogenesis and exogenous geographical points of soil phosphorus equilibrium as the two turning points in the S-type membership function, based on fuzzy mathematics, to evaluate the renewing status and fertility of Xiongxian country's soil phosphorus system. The results are that complete P treat is the best, CK and -P are in the lowest, 1/2P mediates. For the sustainable fertilization strategy, 1/2P is the best scheme, according to the evaluation of various treatments' exogenous renewing coefficient of soil phosphorus.
引文
[1] 李广敏,王慧军.农业概论[M].北京:中国科学技术出版社,1992.
[2] 沈享理.农业生态学[M].中国农业出版社,1997.
[3] 时正新.生态农业原理及其应用[M].北京:农业出版社,1988.
[4] 许皞.耕地生产力更新与耕地持续利用研究[D],北京:中国农业大学,1999.
[5] 张俊梅.土壤氮素地理平衡点研究——以雄县轻壤质潮土为例[D].保定:河北农业大学资环学院,2000.
[6] 王庆仁,李继元.论合理施肥与土壤环境的可持续发展[J].环境科学进展,1999,7(2):116-123.
[7] 许皞.雄县土壤资源的持续利用分析[A].国际持续农业学术会议论文集[C].北京:农业大学出版社,1993.
[8] Tiessen, H. Determinants of soil resilience in soil nutrient dynamics[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[9] Brussard, L. Interrelationship between biological activity soil properties and soil management[J]. Soil resilience and sustainable land use, C.A.B international,1992.
[10] 张壬午.中国农业可持续发展技术[J].农村生态环境,1994,10(3):59-63.
[11] 田光明.县域农业资源环境持续性评价的理论与方法探讨[D].北京:中国农业大学,1995.
[12] 张凤荣.持续土地利用管理与实践[M].北京:北京大学出版社,1996.
[13] 许皞,常金华,霍习良.耕地生产力更新能力研究[J].中国土地科学,1999,13(3):17—20.
[14] Eswaran. Soil resilience and sustainable land management in the context of AGEND 21[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[15] Szaboles,I. The concept of soil resilience[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[16] Lal. R. sustainable land use system and soil resilience[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[17] 林培.可持续发展——可持续农业——可持续土壤管理的逻辑理解[M].1998.
[18] 鲁如昆,土壤磷素(一),土壤通报,1980(1):43-47.
[19] 鲁如昆,土壤磷素(二),土壤通报,1980(2):47-49.
[20] 沈善敏,论我国磷肥生产与应用对策(二),土壤通报,1985,16(4):145-161.
[21] 南京农业大学.土壤农化分析[M].北京:农业出版社,1996.
[22] 沈善敏,陈欣.中国土壤磷素肥力与农业中的磷管理[A].中国土壤肥力[M].北京:中国农业出版社,1998,212-237.
[23] 鲁如昆,时正元等.土壤积累态磷研究Ⅱ磷肥的表观积累利用率,土壤,1995,27(6):286—289.
[24] Bowman R.A,C.V Cole. An exploratory method for fractionation of organic phosphorus from grassland soils[J]. Soil Sci., 1978b, 125:95-101.
[25] Stevenson, F J. Carbon, nitrogen, phosphorus, sulfur, and micronutrients[J].Cycles of soil, 1985, 231-284.
[26] Dalal, R C. Soil organic phosphorus [J]. Adv. Agron., 1977,29:83-119.
[27] AD迈克拉伦著,闵九康,关松荫译.土壤生物化学[M]146.
[28] 刘小虎,邹德乙,刘新华,等.长期轮作施肥对棕壤有机磷组分及其动态的影响[J],土壤通报,1999,30(4):178-180.
[29] Chang S C, M. L. Jeckson. Fractionation of phosphorus [J]. Soil Sci.,1958,9:109-119.
[30] 蒋柏藩,顾益初.石灰性土壤无机磷分级体系研究[J].中国农业科学,1989,22(3):58-66.
[31] 李祖荫.关于石灰性土壤无机磷固磷机制问题[J].土壤通报,1992,23(4):190-192.
[32] 顾益初,蒋柏藩,鲁如坤.风化对土壤粒级中磷素形态转化及其有效性的影响[J].土壤学报,1984,21(2):134-142.
[33] 蒋柏藩.石灰性土壤无机磷有效性的研究[J].土壤,1992,24(2):61-64.
[34] 张淑茗,于淑芳.石灰性土壤无机磷形态及有效性研究[J].土壤肥料,1992(3):1-4.
[35] 郭智芬,涂书新等.石灰性土壤不同形态无机磷对作物营养的贡献[J].中国农业科学,1997,30(1):26-32.
[36] 沈仁芳,蒋柏藩.石灰性土壤无机磷的形态分布及其有效性[J].土壤学报,1992,29(2):80-86.
[37] 王光火,朱祖祥.石灰性土壤与磷酸盐的反应及吸持态磷的同位素交换性[J].土壤学报,1993,30(4):375-378.
[38] Abbas Samadi, Gilkes R J. Phosphorus transformations and their relationships with calcareous soil properties of southern western Australia[J]. Soil Sci. Soc.Am, 1999,63:809-815.
[39] Miressa Duffera, Wayne P, Robarge. Soil characteristics and management effects on phosphorus sorption by highland plateau soils of Ethiopia [J]. Soil Sci. Soc. Am,1999,63:1455-1462.
[40] 吕家珑.石灰性土壤中固磷基质的探讨[J].西北农业大学学报,1990,18增刊:16-23.
[41] 夏汉平,高子勤.磷酸盐在土壤中的吸附[J].土壤通报,1992,23(6):283-287.
[42] 尹金来,曹翠玉等.徐淮地区石灰性土壤磷素固定的研究[J].土壤学报,1989,26(2):131—138.
[43] Cole,C V., Olsen,S.R. and Scott,C O. The nature of phosphorus sorption by calcium carbonate[J]. Soil Sci. Am. Proc., 1953,17:352-356.
[44] Feeman,J S. and Rowell,D L. The adsorption and precipitation of phosphate onto calcite[J]. Soil Sci., 1981,32:75-84.
[45] 吕家珑,张一平,苏仕平.应用吸附等温线斜率推求磷素运移参数初探[J].土壤通报,1998,29(5):214—217.
[46] 薛泉宏,尉庆丰,薛喜乐.黄土性土壤在连续液流条件下吸附、解吸磷酸根的动力学研究[J].土壤学报,1995,32(2):143—149.
[47] 何振立,袁可能,朱祖祥.我国几种代表性土壤磷酸根释放动力学初步研究[J].土壤通报,1989,20(6):256—260.
[48] 陆文龙,王敬国,曹一平,等.低分子量有机酸对土壤磷释放动力学的影响[J].土壤学报,1998,35(4):493-498.
[49] 徐明岗,张一平,孙本华.土壤磷扩散规律及其能量特征研究Ⅲ土壤磷扩散的动力学及能量特征[J].土壤学报,1998,35(2):203-208.
[50] Buschiazzo D E,Hepper E N,Urioste A M etc. Cultivation effects on phosphate forms and sorption in loess-soils of Argentina[J]. Soil Science, 2000,165(5):427-435.
[51] Suzanne Beauchemin,Simard R R. Phosphorus status of intensively cropped soils of the St. Lawvence lowland[J]. Soil Sci. Soc. Am, 2000,64:659-670.
[52] 陆允甫,吕晓男。中国测土施肥工作的进展和展望[J].土壤学报,1995,32(3):241-250.
[53] 周鸣铮.中国的测土施肥[J].土壤通报,1987,18(1):7-13.
[54] Mattingly G E G, Holford I C R. Effects of phosphate buffering on the extraction of labile phosphate by plant and soil tests[J].Soil Res., 1979,17:51-514.
[55] 庄卫民,蔡婷婷,Olsen T W.土壤磷提取方法评价[J].土壤学进展,1995,23(4):49-53.
[56] 周鸣铮,土壤速效磷化学法提取体系及其适用性,土壤学进展,1987,15(6):1-12.
[57] 林治安,谢承陶等,旱做农田石灰性土壤磷素形态转化与施肥,土壤肥料,1996,(6):26-28.
[58] Bolland,M.D.A. Summary of Research on soil testing for rork phosphate fertilizers in Western Austrilia. Fertilizer Research. 1993,35(1):83-91.
[59] 宇万太,陈欣.磷肥低量施用制度下土壤磷库的发展变化[J].土壤学报,1996,33(4):373-378.
[60] 陆世勇,卜训琴.安徽省几种主要土壤无机磷的积累规律[J].土壤,1998(3):152-155.
[61] Selles F, Campbell C A, Zentner R P. Effect of cropping and fertilization on plant and soil phosphrus[J]. Soil Sci. Soc. Am, 1995,59:140-144.
[62] 霍绍周.系统论[M].北京:科学技术文献出版社,1988.
[63] 扬春时,邵光远,刘伟民等.系统论信息论控制论浅说[M].北京:中国广播电视出版社,1987.
[64] 扬缦琳,胡爱本.思维与方法新科学[M].北京:中国青年出版社,1990.
[65] 张桃林,潘剑君,赵其国.土壤质量研究进展与方向[J].土壤,1991,第1期:1-7.
[66] 特鲁吉尔 ST.土壤与植被系统[M].北京:科学出版社,1985.
[67] 王兴成.关于系统科学和跨学科研究[J].国外社会科学,1985,(2):9-13.
[68] 黎孟波,土壤肥力研究进展[M].北京:中国科技出版社,1991.
[69] 林培.土地资源学[M].北京:中国农业大学出版社,1996.
[70] 万建中.农业自然资源经济学[M].北京:农业出版社,1992.
[71] 张福锁.土壤与植物营养研究新动态[M].北京:中国农业出版社,1995.
[72] 周鸣铮.土壤磷有效度的物理化学研究法(上)[J].土壤学进展,1979(1):39-50.
[73] 邓聚龙.农业系统灰色理论与方法[M].济南:山东科学技术出版社,1988.
[74] 朱剑农.土壤经济原理[M].北京:农业出版社.1981.
[75] 吴玉梅.对土壤肥力的再认识[J].农业系统科学与综合研究,1994,10(2):139-141.
[76] 何同康.土壤(土地)资源评价的主要方法及其特点比较[J].土壤学进展,1983,(6):1-12.
[77] 孙波,张桃林,赵其国.我国东南丘陵山区土壤肥力的综合评价[J].土壤学报,1995,32(4):362-369.
[78] 张兴昌.土壤肥力得数学评价初探[J].陕西农业科学,1993,(4):8-11.
[79] 曹承锦,严长生,张志明.等.关于土壤肥力数值化综合评价的探讨[J].土壤通报,1983,(4):13-1.
[80] 耿兴元,毛达如.推荐施肥中土壤肥力模糊评判方法(SFFE)系统的研究[J].北京:中国农业科学,1994,27(5):51-62.
[81] 吕纬.模糊模型识别及其在土地质量评价中的应用[J].数学的实践与认识,1983,(1):1-8.
[82] 赵锐,刘振东.模糊数学在土地资源评价中的应用[J].地理科学,1985,5(1):68-72.
[83] 吕晓男,陆允甫,王人潮.土壤肥力综合评价初步研究[J].浙江农业大学学报,1999,25(4):378-382.
[84] 霍习良,张俊梅,许皞,等.河北省冲积平原区潮土的土壤养分限制谱序研究与应用[J].河北农业大学学报,2001,24(4):32-35.
[85] 顾益初,蒋柏藩.石灰性土壤磷分级的测定方法[J].土壤,1990,22(6):101-102
[86] 张晓红,黑龙港北部潮土无机磷组成转化及供磷特性[J].河北农业大学学报,2002年5月.
[87] 鲁如昆,时正元,钱承梁.土壤积累态磷研究Ⅲ几种典型土壤中积累态磷的形态特征及其有效性[J].土壤,1997,(2):57-75.
[88] Fixen, P E. Proc. Phosphate fertilizer and the viroment. IFDC USA, 1992:77-85.
[2] 沈享理.农业生态学[M].中国农业出版社,1997.
[3] 时正新.生态农业原理及其应用[M].北京:农业出版社,1988.
[4] 许皞.耕地生产力更新与耕地持续利用研究[D],北京:中国农业大学,1999.
[5] 张俊梅.土壤氮素地理平衡点研究——以雄县轻壤质潮土为例[D].保定:河北农业大学资环学院,2000.
[6] 王庆仁,李继元.论合理施肥与土壤环境的可持续发展[J].环境科学进展,1999,7(2):116-123.
[7] 许皞.雄县土壤资源的持续利用分析[A].国际持续农业学术会议论文集[C].北京:农业大学出版社,1993.
[8] Tiessen, H. Determinants of soil resilience in soil nutrient dynamics[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[9] Brussard, L. Interrelationship between biological activity soil properties and soil management[J]. Soil resilience and sustainable land use, C.A.B international,1992.
[10] 张壬午.中国农业可持续发展技术[J].农村生态环境,1994,10(3):59-63.
[11] 田光明.县域农业资源环境持续性评价的理论与方法探讨[D].北京:中国农业大学,1995.
[12] 张凤荣.持续土地利用管理与实践[M].北京:北京大学出版社,1996.
[13] 许皞,常金华,霍习良.耕地生产力更新能力研究[J].中国土地科学,1999,13(3):17—20.
[14] Eswaran. Soil resilience and sustainable land management in the context of AGEND 21[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[15] Szaboles,I. The concept of soil resilience[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[16] Lal. R. sustainable land use system and soil resilience[J]. Soil resilience and sustainable land use, C.A.B international, 1994.
[17] 林培.可持续发展——可持续农业——可持续土壤管理的逻辑理解[M].1998.
[18] 鲁如昆,土壤磷素(一),土壤通报,1980(1):43-47.
[19] 鲁如昆,土壤磷素(二),土壤通报,1980(2):47-49.
[20] 沈善敏,论我国磷肥生产与应用对策(二),土壤通报,1985,16(4):145-161.
[21] 南京农业大学.土壤农化分析[M].北京:农业出版社,1996.
[22] 沈善敏,陈欣.中国土壤磷素肥力与农业中的磷管理[A].中国土壤肥力[M].北京:中国农业出版社,1998,212-237.
[23] 鲁如昆,时正元等.土壤积累态磷研究Ⅱ磷肥的表观积累利用率,土壤,1995,27(6):286—289.
[24] Bowman R.A,C.V Cole. An exploratory method for fractionation of organic phosphorus from grassland soils[J]. Soil Sci., 1978b, 125:95-101.
[25] Stevenson, F J. Carbon, nitrogen, phosphorus, sulfur, and micronutrients[J].Cycles of soil, 1985, 231-284.
[26] Dalal, R C. Soil organic phosphorus [J]. Adv. Agron., 1977,29:83-119.
[27] AD迈克拉伦著,闵九康,关松荫译.土壤生物化学[M]146.
[28] 刘小虎,邹德乙,刘新华,等.长期轮作施肥对棕壤有机磷组分及其动态的影响[J],土壤通报,1999,30(4):178-180.
[29] Chang S C, M. L. Jeckson. Fractionation of phosphorus [J]. Soil Sci.,1958,9:109-119.
[30] 蒋柏藩,顾益初.石灰性土壤无机磷分级体系研究[J].中国农业科学,1989,22(3):58-66.
[31] 李祖荫.关于石灰性土壤无机磷固磷机制问题[J].土壤通报,1992,23(4):190-192.
[32] 顾益初,蒋柏藩,鲁如坤.风化对土壤粒级中磷素形态转化及其有效性的影响[J].土壤学报,1984,21(2):134-142.
[33] 蒋柏藩.石灰性土壤无机磷有效性的研究[J].土壤,1992,24(2):61-64.
[34] 张淑茗,于淑芳.石灰性土壤无机磷形态及有效性研究[J].土壤肥料,1992(3):1-4.
[35] 郭智芬,涂书新等.石灰性土壤不同形态无机磷对作物营养的贡献[J].中国农业科学,1997,30(1):26-32.
[36] 沈仁芳,蒋柏藩.石灰性土壤无机磷的形态分布及其有效性[J].土壤学报,1992,29(2):80-86.
[37] 王光火,朱祖祥.石灰性土壤与磷酸盐的反应及吸持态磷的同位素交换性[J].土壤学报,1993,30(4):375-378.
[38] Abbas Samadi, Gilkes R J. Phosphorus transformations and their relationships with calcareous soil properties of southern western Australia[J]. Soil Sci. Soc.Am, 1999,63:809-815.
[39] Miressa Duffera, Wayne P, Robarge. Soil characteristics and management effects on phosphorus sorption by highland plateau soils of Ethiopia [J]. Soil Sci. Soc. Am,1999,63:1455-1462.
[40] 吕家珑.石灰性土壤中固磷基质的探讨[J].西北农业大学学报,1990,18增刊:16-23.
[41] 夏汉平,高子勤.磷酸盐在土壤中的吸附[J].土壤通报,1992,23(6):283-287.
[42] 尹金来,曹翠玉等.徐淮地区石灰性土壤磷素固定的研究[J].土壤学报,1989,26(2):131—138.
[43] Cole,C V., Olsen,S.R. and Scott,C O. The nature of phosphorus sorption by calcium carbonate[J]. Soil Sci. Am. Proc., 1953,17:352-356.
[44] Feeman,J S. and Rowell,D L. The adsorption and precipitation of phosphate onto calcite[J]. Soil Sci., 1981,32:75-84.
[45] 吕家珑,张一平,苏仕平.应用吸附等温线斜率推求磷素运移参数初探[J].土壤通报,1998,29(5):214—217.
[46] 薛泉宏,尉庆丰,薛喜乐.黄土性土壤在连续液流条件下吸附、解吸磷酸根的动力学研究[J].土壤学报,1995,32(2):143—149.
[47] 何振立,袁可能,朱祖祥.我国几种代表性土壤磷酸根释放动力学初步研究[J].土壤通报,1989,20(6):256—260.
[48] 陆文龙,王敬国,曹一平,等.低分子量有机酸对土壤磷释放动力学的影响[J].土壤学报,1998,35(4):493-498.
[49] 徐明岗,张一平,孙本华.土壤磷扩散规律及其能量特征研究Ⅲ土壤磷扩散的动力学及能量特征[J].土壤学报,1998,35(2):203-208.
[50] Buschiazzo D E,Hepper E N,Urioste A M etc. Cultivation effects on phosphate forms and sorption in loess-soils of Argentina[J]. Soil Science, 2000,165(5):427-435.
[51] Suzanne Beauchemin,Simard R R. Phosphorus status of intensively cropped soils of the St. Lawvence lowland[J]. Soil Sci. Soc. Am, 2000,64:659-670.
[52] 陆允甫,吕晓男。中国测土施肥工作的进展和展望[J].土壤学报,1995,32(3):241-250.
[53] 周鸣铮.中国的测土施肥[J].土壤通报,1987,18(1):7-13.
[54] Mattingly G E G, Holford I C R. Effects of phosphate buffering on the extraction of labile phosphate by plant and soil tests[J].Soil Res., 1979,17:51-514.
[55] 庄卫民,蔡婷婷,Olsen T W.土壤磷提取方法评价[J].土壤学进展,1995,23(4):49-53.
[56] 周鸣铮,土壤速效磷化学法提取体系及其适用性,土壤学进展,1987,15(6):1-12.
[57] 林治安,谢承陶等,旱做农田石灰性土壤磷素形态转化与施肥,土壤肥料,1996,(6):26-28.
[58] Bolland,M.D.A. Summary of Research on soil testing for rork phosphate fertilizers in Western Austrilia. Fertilizer Research. 1993,35(1):83-91.
[59] 宇万太,陈欣.磷肥低量施用制度下土壤磷库的发展变化[J].土壤学报,1996,33(4):373-378.
[60] 陆世勇,卜训琴.安徽省几种主要土壤无机磷的积累规律[J].土壤,1998(3):152-155.
[61] Selles F, Campbell C A, Zentner R P. Effect of cropping and fertilization on plant and soil phosphrus[J]. Soil Sci. Soc. Am, 1995,59:140-144.
[62] 霍绍周.系统论[M].北京:科学技术文献出版社,1988.
[63] 扬春时,邵光远,刘伟民等.系统论信息论控制论浅说[M].北京:中国广播电视出版社,1987.
[64] 扬缦琳,胡爱本.思维与方法新科学[M].北京:中国青年出版社,1990.
[65] 张桃林,潘剑君,赵其国.土壤质量研究进展与方向[J].土壤,1991,第1期:1-7.
[66] 特鲁吉尔 ST.土壤与植被系统[M].北京:科学出版社,1985.
[67] 王兴成.关于系统科学和跨学科研究[J].国外社会科学,1985,(2):9-13.
[68] 黎孟波,土壤肥力研究进展[M].北京:中国科技出版社,1991.
[69] 林培.土地资源学[M].北京:中国农业大学出版社,1996.
[70] 万建中.农业自然资源经济学[M].北京:农业出版社,1992.
[71] 张福锁.土壤与植物营养研究新动态[M].北京:中国农业出版社,1995.
[72] 周鸣铮.土壤磷有效度的物理化学研究法(上)[J].土壤学进展,1979(1):39-50.
[73] 邓聚龙.农业系统灰色理论与方法[M].济南:山东科学技术出版社,1988.
[74] 朱剑农.土壤经济原理[M].北京:农业出版社.1981.
[75] 吴玉梅.对土壤肥力的再认识[J].农业系统科学与综合研究,1994,10(2):139-141.
[76] 何同康.土壤(土地)资源评价的主要方法及其特点比较[J].土壤学进展,1983,(6):1-12.
[77] 孙波,张桃林,赵其国.我国东南丘陵山区土壤肥力的综合评价[J].土壤学报,1995,32(4):362-369.
[78] 张兴昌.土壤肥力得数学评价初探[J].陕西农业科学,1993,(4):8-11.
[79] 曹承锦,严长生,张志明.等.关于土壤肥力数值化综合评价的探讨[J].土壤通报,1983,(4):13-1.
[80] 耿兴元,毛达如.推荐施肥中土壤肥力模糊评判方法(SFFE)系统的研究[J].北京:中国农业科学,1994,27(5):51-62.
[81] 吕纬.模糊模型识别及其在土地质量评价中的应用[J].数学的实践与认识,1983,(1):1-8.
[82] 赵锐,刘振东.模糊数学在土地资源评价中的应用[J].地理科学,1985,5(1):68-72.
[83] 吕晓男,陆允甫,王人潮.土壤肥力综合评价初步研究[J].浙江农业大学学报,1999,25(4):378-382.
[84] 霍习良,张俊梅,许皞,等.河北省冲积平原区潮土的土壤养分限制谱序研究与应用[J].河北农业大学学报,2001,24(4):32-35.
[85] 顾益初,蒋柏藩.石灰性土壤磷分级的测定方法[J].土壤,1990,22(6):101-102
[86] 张晓红,黑龙港北部潮土无机磷组成转化及供磷特性[J].河北农业大学学报,2002年5月.
[87] 鲁如昆,时正元,钱承梁.土壤积累态磷研究Ⅲ几种典型土壤中积累态磷的形态特征及其有效性[J].土壤,1997,(2):57-75.
[88] Fixen, P E. Proc. Phosphate fertilizer and the viroment. IFDC USA, 1992:77-85.