绿色食品黄瓜生产肥料运筹效应研究
摘要
本文针对当前人们对蔬菜产品的营养品质和安全性的要求,研究了不同有机肥在绿色食品黄瓜设施生产中的应用效果。利用鸡粪、猪粪、马粪和玉米秸秆等4种有机肥料,采用4种不同施用处理方式,研究了不同有机肥料对大棚土壤培肥效果及对黄瓜生长产量和品质的影响,并采用灰色关联度法对其进行多目标综合评价。旨在解决吉林省设施绿色食品蔬菜设施生产中施肥问题,并为建立绿色食品蔬菜生产中有机肥实用技术体系提供理论和现实依据。试验结果表明:
施用有机肥对黄瓜产量和生物量有明显影响,单独施用猪粪处理显著提高黄瓜茎粗,但过量猪粪处理PP3导致植株生长受阻,产量下降。有机肥与化肥配合处理后,对植株生物量影响显著,尤其地下部分生物量明显高于单独施用有机肥处理,其中CF2处理产量显著提高,产量高达1.112×10~5kg/ha。秸秆处理的植株茎粗生长最优,叶片数量有明显增加,节间缩短,植株长势较好,处理MF1和处理MF2产量在所有处理中表现最佳。
施用猪粪对春茬黄瓜果实品质的综合评价最优,施用猪粪有机肥可以明显提高春茬黄瓜果实的抗坏血酸含量和可溶性糖含量,显著降低了果实中硝酸盐含量。但猪粪处理的秋茬果实品质明显下降,果实中总糖含量显著降低,抗坏血酸含量有所下降。秸秆与化肥配合施用显著降低了果实中硝酸盐含量,对春茬果实中糖含量影响明显,并且显著提高了秋茬果实中糖含量,而且有很强的后效影响。鸡粪与化肥配施后对抗坏血酸含量及总糖含量的改善效果优于单独施用鸡粪处理,随着鸡粪施用量的增加,抗坏血酸含量和总糖含量显著增加,处理CF2对果实品质改善效果表现较佳。
对产量和果实品质的综合评价结果显示,秸秆MF1处理效果表现最佳,处理MCF第三,处理CF2第五,处理PC1效果最差,因此在实际生产中推荐施用秸秆1.0%,同时配合一定量的速效氮肥。
有机肥处理对土壤pH和土壤电导率影响显著。秸秆与化肥混合后,土壤缓冲能力增强,改土效果明显,施肥6个月期间,电导率消长变化较其他处理稳定,在黄瓜生长盛期,土壤肥力能维持一定水平,施肥5个月后有明显的遏制土壤盐分表聚的势头。
施用有机肥能显著提高土壤细茵、放线菌数量和氨化细菌数量,优化土壤微生物区系,提高土壤B/F值,增强黄瓜对土传病害的抗病能力。其中猪粪处理PP2和处理PF2的土壤氨化细菌数量最多,B/F值较大,鸡粪处理的细菌数量增加最多,处理PC3>处理PC2>处理PC1;秸秆处理的土壤中放线茵数量显著增加,明显高于其他有机肥处理。
吉林农业大学硕士学位论文绿色食品黄瓜生产肥料运筹效应研究
有机肥处理能提高土壤耕层有机质含量及土壤速效养分含量,培肥效果明显。有机
肥与化肥配施后,加快土壤的矿化速率,施肥3个月后,土壤有机质含量较单独施用有
机肥处理增加明显。秸杆与化肥配施后,钾素的回收率显著提高,土壤速效钾含量以及
土壤有机质和土壤速效P含量明显增加。
Nowadays, people are more concerned of the nutrition and safety of vegetable produce. This dissertation has a research about the effect of organic manures on the safe food planting of green house cucumber. There are four organic manures with four different measures in this research, such as chicken manure, pig manure, horse manure and corn straw. Studied the impacts of these manures on the cucumber growth, yields and fruit quality, and evaluated whole results with Grey Relativity Analysis theory. In order to solve the problems of green house fertilization, and provide theoretical and realistic basis for the system of organic manure use. Results show:
Cucumber marketable yields and its growth were obviously affected by using different manures. The plant stem thick increased prominently with pig manure only, but its plant height and yield reduced with overusing pig manure. The plant growth, especially the root, was affected significantly by using manure and fertilizer, and was better than using manure only. Cucumber yields of treatment CF2 increased distinctly, and cucumber yields was 1.112 x 105kg.ha-1. The plant stem thick increased prominently by using corn straw and the numbers of leaf increased and the way corp was growing better with the increment of corn straw. So corn straw was the best for cucumber yield.
Ascorbic acid (Vc) content and soluble sugar was increased mainly by utilizing pig manure, fruit nitrate content was reduced distinctly. But fruit quality with pig manure in autumn was worse than in spring. The impact on fruit quality by using organic manure and fertilizer was better than using manure only. Ascorbic acid and soluble sugar were effectively improved with the increment of chicken manure, and CF2 was better. The fruit nitrate content was the lowest by using corn straw, and fruit soluble sugar in autumn was increased significantly.
The optimum results derived from MF1 by using Grey Relativity Analysis on yield and quality characters, thirdly was MCF, and CF2 was the fifth, but PC1 was the worst. Therefore, we can use corn straw 1.0% with some available nitrogen in the production of organic cucumber.
The variation of pH and electrical conductivity in soil were steady by using corn straw during six months. And the soil nutrient kept steadily, salinity assembled was kept within limits.
The amounts of bacteria, ammonifying bacteria, actinomyces and fungi were increased by using organic manures, the kind of microbial was significantly improved, the ratio of B/F in soil was increased. So capability of plant antidisease was improved distinctly. The amount of ammonifying bacteria was the highest with pig manure, the amount of bacteria was very high with chicken manure and the amount from high to low was: PC3>PC2>PC1. The amount of actinomyces was the highest by using corn straw.
Topsoil nutrient was affected distinctly by using organic manures. The ratio of mineralization was improved by using organic manure and fertilizer, and the amount of organic C was higher than using manure only after fertilizing three months. More available potassium in soil was reutilized by using corn straw, and organic C, available phosphorus were increased significantly.
Organic manure has an important role in the production of vegetables.
施用有机肥对黄瓜产量和生物量有明显影响,单独施用猪粪处理显著提高黄瓜茎粗,但过量猪粪处理PP3导致植株生长受阻,产量下降。有机肥与化肥配合处理后,对植株生物量影响显著,尤其地下部分生物量明显高于单独施用有机肥处理,其中CF2处理产量显著提高,产量高达1.112×10~5kg/ha。秸秆处理的植株茎粗生长最优,叶片数量有明显增加,节间缩短,植株长势较好,处理MF1和处理MF2产量在所有处理中表现最佳。
施用猪粪对春茬黄瓜果实品质的综合评价最优,施用猪粪有机肥可以明显提高春茬黄瓜果实的抗坏血酸含量和可溶性糖含量,显著降低了果实中硝酸盐含量。但猪粪处理的秋茬果实品质明显下降,果实中总糖含量显著降低,抗坏血酸含量有所下降。秸秆与化肥配合施用显著降低了果实中硝酸盐含量,对春茬果实中糖含量影响明显,并且显著提高了秋茬果实中糖含量,而且有很强的后效影响。鸡粪与化肥配施后对抗坏血酸含量及总糖含量的改善效果优于单独施用鸡粪处理,随着鸡粪施用量的增加,抗坏血酸含量和总糖含量显著增加,处理CF2对果实品质改善效果表现较佳。
对产量和果实品质的综合评价结果显示,秸秆MF1处理效果表现最佳,处理MCF第三,处理CF2第五,处理PC1效果最差,因此在实际生产中推荐施用秸秆1.0%,同时配合一定量的速效氮肥。
有机肥处理对土壤pH和土壤电导率影响显著。秸秆与化肥混合后,土壤缓冲能力增强,改土效果明显,施肥6个月期间,电导率消长变化较其他处理稳定,在黄瓜生长盛期,土壤肥力能维持一定水平,施肥5个月后有明显的遏制土壤盐分表聚的势头。
施用有机肥能显著提高土壤细茵、放线菌数量和氨化细菌数量,优化土壤微生物区系,提高土壤B/F值,增强黄瓜对土传病害的抗病能力。其中猪粪处理PP2和处理PF2的土壤氨化细菌数量最多,B/F值较大,鸡粪处理的细菌数量增加最多,处理PC3>处理PC2>处理PC1;秸秆处理的土壤中放线茵数量显著增加,明显高于其他有机肥处理。
吉林农业大学硕士学位论文绿色食品黄瓜生产肥料运筹效应研究
有机肥处理能提高土壤耕层有机质含量及土壤速效养分含量,培肥效果明显。有机
肥与化肥配施后,加快土壤的矿化速率,施肥3个月后,土壤有机质含量较单独施用有
机肥处理增加明显。秸杆与化肥配施后,钾素的回收率显著提高,土壤速效钾含量以及
土壤有机质和土壤速效P含量明显增加。
Nowadays, people are more concerned of the nutrition and safety of vegetable produce. This dissertation has a research about the effect of organic manures on the safe food planting of green house cucumber. There are four organic manures with four different measures in this research, such as chicken manure, pig manure, horse manure and corn straw. Studied the impacts of these manures on the cucumber growth, yields and fruit quality, and evaluated whole results with Grey Relativity Analysis theory. In order to solve the problems of green house fertilization, and provide theoretical and realistic basis for the system of organic manure use. Results show:
Cucumber marketable yields and its growth were obviously affected by using different manures. The plant stem thick increased prominently with pig manure only, but its plant height and yield reduced with overusing pig manure. The plant growth, especially the root, was affected significantly by using manure and fertilizer, and was better than using manure only. Cucumber yields of treatment CF2 increased distinctly, and cucumber yields was 1.112 x 105kg.ha-1. The plant stem thick increased prominently by using corn straw and the numbers of leaf increased and the way corp was growing better with the increment of corn straw. So corn straw was the best for cucumber yield.
Ascorbic acid (Vc) content and soluble sugar was increased mainly by utilizing pig manure, fruit nitrate content was reduced distinctly. But fruit quality with pig manure in autumn was worse than in spring. The impact on fruit quality by using organic manure and fertilizer was better than using manure only. Ascorbic acid and soluble sugar were effectively improved with the increment of chicken manure, and CF2 was better. The fruit nitrate content was the lowest by using corn straw, and fruit soluble sugar in autumn was increased significantly.
The optimum results derived from MF1 by using Grey Relativity Analysis on yield and quality characters, thirdly was MCF, and CF2 was the fifth, but PC1 was the worst. Therefore, we can use corn straw 1.0% with some available nitrogen in the production of organic cucumber.
The variation of pH and electrical conductivity in soil were steady by using corn straw during six months. And the soil nutrient kept steadily, salinity assembled was kept within limits.
The amounts of bacteria, ammonifying bacteria, actinomyces and fungi were increased by using organic manures, the kind of microbial was significantly improved, the ratio of B/F in soil was increased. So capability of plant antidisease was improved distinctly. The amount of ammonifying bacteria was the highest with pig manure, the amount of bacteria was very high with chicken manure and the amount from high to low was: PC3>PC2>PC1. The amount of actinomyces was the highest by using corn straw.
Topsoil nutrient was affected distinctly by using organic manures. The ratio of mineralization was improved by using organic manure and fertilizer, and the amount of organic C was higher than using manure only after fertilizing three months. More available potassium in soil was reutilized by using corn straw, and organic C, available phosphorus were increased significantly.
Organic manure has an important role in the production of vegetables.
引文
[1] 杨丽娟,张玉龙.保护地菜田土壤硝酸盐积累及其调控措施的研究进展.土壤通报,2001,23(2):66~69
[2] 冯永军,陈为峰等.设施园艺土壤的盐化与治理对策.农业工程学报,2001,17(2):111~114
[3] 王学军.日光温室土壤次生盐渍化分析.北方园艺,1998,(3/4):12~13
[4] 王晓佳,宋明.蔬菜的污染与无污染生产.中国蔬菜,1996(3):53~55
[5] 王洪玉,王林宝等.大棚黄瓜营养与土壤供肥特性的研究.土壤通报,1992,23(3):134~136
[6] 刘德,吴凤芝.哈尔滨市郊蔬菜大棚土壤盐分状况及影响.北方园艺.1998,(6):1~2
[7] 吴志行等.大棚蔬菜连作障碍及土壤次生盐渍化原因与防止.长江蔬菜,1994,(5):21~23
[8] 薛继澄,毕德义等.保护地栽培生理障碍的土壤因子与对策.土壤肥料,1994(1):4~9
[9] 童有为,陈淡飞.温室土壤次生盐渍化的形成和治理途径研究.园艺学报,1991,18(2):159~162
[10] 侯云霞,钱光熹,王建民.上海蔬菜保护的土壤盐分状况.上海农业学报,1987,3(4):31~38
[11] 赵凤艳,吴凤芝、刘德等.大棚菜地土壤理化特性的研究.土壤肥料,2000(2):11~13
[12] 黄锦法,李艾芬等.保护地土壤障害的农化性状指标.浙江农业学报,2000,12(5):285~289
[13] 刘秀茹,王晓雪,葛晓光.有机肥与无机氮肥配合施用对菜田土壤培肥作用.土壤通报,1992,23(3):137~139
[14] 程美廷.温室土壤盐分积累、盐害及其防治.土壤肥料,1990,(1):1~4
[15] 李海云,王秀峰等.不同阴离子化肥对黄瓜生长及土壤EC、pH的影响.山东农业科学,2002,(2):16~18
[16] 沈明珠,翟保杰,东惠茹等.蔬菜硝酸盐积累的研究—不同蔬菜硝酸盐和亚硝酸盐含量评价.园艺学报,1982,9(4):41~49
[17] 吴凤芝,刘德,栾非时.大棚土壤连作年限对黄瓜产量及品质的影响.东北农业大学学报,1999,30(3):215~218
[18] 杨永林.我国北方蔬菜病害发展与防治对策.北方园艺,1988(5):1~7
[19] 吴凤芝,王伟.大棚番茄土壤微生物区系研究.北方园艺,1999(3):1~2
[20] 喻景权,杜尧舜.蔬菜设施栽培可持续发展中的连作障碍问题.沈阳农业大学学报,2000,31(1):124~126
[21] 吕卫光,张春兰.有机肥减轻黄瓜连作自毒作用的机制.上海农业学报,2002,18(2):52-56
[22] 梁银丽,陈志杰等.日光温室不同连作年限对黄瓜生理特性的影响.西北植物学报,2003,23(8):1398~1401
[23] 吴建繁,王运华.无公害蔬菜营养与施肥研究进展.植物学通报,2000,17(6):492~503
[24] 红云.有机农业是农业发展的百年大计.农业环境与发展,1998(2):45~46
[25] 尚秀荣.绿色食品.食品研究与开发,1993(1):5-7
[26] Jeff Mitchell, Mark Gaskell, ect. Soil management and soil quality for organic crops. Organic vegetable production in California scales. Division of Agriculture and Natural Resources. Pubilcation 7249, 2000
[27] 大前加阳子,福留红二等,牛粪堆肥施用生育,收量,品质,培养土理化学的性质及影响,鹿大农学术报告,2003,53,1~14
[28] 中野明正,上原洋—等,堆肥施用收量,糖度,无机成分d~(15)N值与影响,日本土壤肥料学杂志,2003,74(6):737-741
[29] 蒲岛泰文,须贺有子,福永亚矢子等.有机物连用圃场品质.近郊中国四国农业研究研究报告,2002(1):61~75
[30] Mark Gaskell, Jeff Mitchell, ect. Soil management and soil quality for organic crops. Organic vegetable production in California series. Division of Agriculture and Natural Resources. Pubilcation 7248, 2000
[31] Jolanta Franczuk. The fertilizer value of straw and summer catch crops from non-papilionaceous plants in relation to vegetable yielding. Electronic Journal of Polish Agricultural Universities, Horticultrue, 2003, 6 (1)
[32] 林抗美,冒乃和等.欧盟有机农业植物营养和肥料使用的法律要求.农业环境与发展,2003,(4):43~45
[33] 全国农牧渔业丰收计划办公地,农业部种植业管理司,全国农业技术推广服务中心主编.无公害蔬菜生产技术.中国农业出版社,2002年5月第一版
[34] 涂仕华.化肥在农业可持续发展中的作用与地位.西南农业学报,2003,16(增刊):7—11
[35] 杨林书,阎成.秸秆资源化考略.农业环境保护,1993,12(6):271~273
[36] 刘玉芝,刘佳莹.大棚土壤理化性状综合分析及改良方法.北方园艺,1996(4):35~36
[37] 李春九,马国瑞等.新型有机复肥对土壤及蔬菜产量品质的影响.浙江大学学报(农业与生命科学版)1999,25(4):392~396
[38] 张春兰,张耀东,姚惠琳等.施用稻草对防治保护地土壤盐渍化的作用.土壤.1994,26(3):146~148)
[39] 陈晓红,邹志荣.温室蔬菜栽培连作障碍研究现状及防治措施.陕西农业科学,2002(12):16~18
[40] 于占东,宋述尧.非腐解有机物配施生物菌剂对设施土壤理化性质的影响.吉林农业大学学报,2001,23(4):69~71,74
[41] 于希臣,李德新等.秸秆直接还田的作用.辽宁农业科学,1998(2):39~40
[42] 马鄂超.略论秸秆还田的效果及其措施.新疆农业科学,1989(5):37~38
[43] 方兴龙,董胜桃.有机肥对塑料大棚内地温及作物生长的影响.安徽农业科学,2001,29(4):504~505,508
[44] 张锐,严慧峻等.有机肥在改良盐渍土中的作用.土壤废料,1997(4):11~14
[45] 小田雅行,铃木则夫等.有机物施用设施野菜盐类高浓度障害对策.野菜试验场报告,1985(13):21~32
[46] 崛兼明,福永亚矢子,等.有机栽培农家圃场土壤实态.近郊中国四国农业研究研究报告,2002(1):77~94
[47] 林葆.充分发挥我国肥料的增产效果,《中国土壤科学的现状与展望》中国土壤学会主编,1991,29~36,江苏科学出版社
[48] 孙羲,章永松等.有机肥料对于提高土壤肥力和作物产量的研究.中国土壤学会《现代中国土壤科学进展》(英文)参加第13届国际土壤学会论文集中.1986:197~206
[49] 柴文北,刘大庆等.速腐秸秆肥肥效研究.安徽农业科学,2001,29(2):209~211
[50] 刘秀茹,王晓雪,葛晓光.有机肥与无机氮肥配合施用对菜田土壤培肥作用.土壤通报,1992,23(3):137~139
[51] 穆琳,张继宏,关连珠.不同施肥条件下土壤有机质演变规律.沈阳农业大学学报,1998,29(1):59~64
[52] 魏朝富,陈世正,谢德体.长期施用有机肥对紫色水稻土有机无机复合性状的影响.土壤学报,1995,32(2):159~166
[53] Sun X.1986:Effects of organic manure on soil Fertility and crop production. Current progress in soil research in P.R. China, p197-206
[54] 赵兰坡.施用作物秸秆对土壤的培肥作用.土壤通报,1996,27(2):76~78
[55] 杨玉爱,王珂等.有机肥料研究及展望.土壤学报,1996,33(4):419~422
[56] 陈文新.土壤和环境微生物学(M).北京:北京农业大学出版社,1990,91~94
[57] 刘海琴,王志明等.施加有机肥对土壤微生物量及其周转的影响.江苏农业科学,2002(5):69~70
[58] 杨玉爱,叶正钱,陈峰等.有机肥延缓日本黄瓜早衰作用的影响.土壤学报,1994,29(4):会447~450
[59] 张兴梅,张之一,王法清.黑龙江八一农垦大学学报.2003,15(2):4~7
[60] 宿庆瑞.玉米秸秆肥对土壤肥力及作物产量的影响.黑龙江农业科学,1998(3):30~33
[61] 沈中泉,郭云桃.有机无机肥料配合施用对烟草品质的影响.烟草科技,1988,(6):27~31
[62] 金维续,赵学蕴等.厩肥与氮肥配合对蔬菜品质影响的研究.中国农业科学,1985(3):52~56
[63] 吴多三.蔬菜品质与施肥.北京农业科学,1997,15(1):27~31
[64] 高祖明,张耀栋等.氮磷钾对叶菜硝酸盐积累和硝酸还原酶、过氧化物酶活性的影响.园艺学报,
1989, 16 (4): 293~297
[65] Corre WJ and Breimer T. Nitrate and nitrite in vegtable .Wageningen Center for Agriculture Publishing and documentation. 1979,85
[66] WHO:Nitrates, Nitrites and N-titroso Coumpounds,Environmental Health Criteria,1977 (5)
[67] 申秀英,许晓路.蔬菜硝酸盐积累机制及影响因素.农业环境与发展,1998,57(3):4~5,20
[68] 松本真悟,阿江教治等.有机质肥料施用生育硝酸,酸,酸含量及影响,日本土壤肥料学杂志,1999,70(1):31~38
[69] Stevenson F J,1994,Humus Chemistry. Wiley, New York,USA
[70] Steingrover E,Woldendro j,Sijtsma L,1986.Nitrate acuumulation and its relation to leaf eloogation in spinach leaves.Journal and experimental Botany,37 (181) :1093~1102
[71] 殷永娴,张春兰,姚惠琳.增施秸秆对蔬菜保护地土壤微生物的影响.土壤通报,1996,27(5):239~封三
[72] 宋述尧.玉米秸秆还田对塑料大棚蔬菜连作土壤改良效果研究(初报)[J].农业工程学报,1997,22(1):135~139
[73] 崔俊涛,王呈玉.土壤微生物学实验指导.吉林农业大学自编第ZY-005
[74] 白宝璋,孙存华等.植物生理学.中国农业科技出版社.1996,(第二版),32
[75] Mays, D.A., Terman, GL.,Duggan,J.C.,Municipal composts: effects on crop yields and soil properties.J. Environ. Qual. 1973 (2) :517~527
[76] 高云超,秸秆覆盖免耕土壤微生物量与养分转化的研究,中国农业科学,1994,27(6):41~49
[77] 洪坚平,谢英荷.不同施肥条件下土壤微生物生物量的研究.山西农业大学学报,1996,16(1):19~21
[78] 方正,许海光,张立锋.秸秆直接还田的微生物学效应.河北农业大学学报,1991,14(1):19~22
[79] 张历,马德华等.土壤B/F值与黄瓜生长关系的初探.天津农业科学,1992(1):9~11
[80] 丁秀华,邱润泽.保护地蔬菜生产生态环境的改善及其对病虫害发生的影响.现代化农业,1995(11):15~16
[81] 陆炳章,陈正斌.绿肥对改良盐土的生物学效应.江苏农业科学,1984(5):30~33
[82] 高强,李亚峰.有机复混肥对土壤及甜椒产量和品质的影响.吉林农业大学学报,2001,23(4):75~78
[83] 蔡燕飞,廖宗等.生态有机肥对番茄青枯病及土壤微生物多样性的影响.应用生态学报,2003,14(3):349~353
[84] 葛晓光,王晓雪等.长期定位施用氮肥对蔬菜产量的影响.中国蔬菜,1996(5):1~5
[85] 张恩平,张淑红,葛晓光.土壤有效养分含量对保护地茄子产量及品质影响.沈阳农业大学学报,2000,31(1):75~77
[86] 刘恩才,陈永祥等.玉米根茬、秸秆还田的增产效应的研究.土壤通报,1998,29(1):11~13
[87] 宋日,吴春胜等.有机无机肥料配合施用对玉米根系的影响.作物学报,2002,28(3):393~396
[88] 赵秀兰,许大志等.玉米根茬还田对土壤肥力的影响研究简报.土壤通报,1998,29(1):14~16
[89] 罗兴根,吴刚,赵林海.热带亚热带土壤科学,1998,7(3):245~247
[90] 魏国强,孙志强等.不同施肥量对温室基质栽培番茄产量与品质的影响.河南农业大学学报,2000,34(4):385~387
[91] Dorothea C. Smith, Vihitha Beharee, Jeffrey C. Hughes. Effects of composts produced by a simple composting procedure on the yields of Swiss Chard and common bean. Scientia horticulturae 91 (2001): 393~406
[92] 李谷香,罗赫荣,黄秋林.有机肥与化肥配施对无子西瓜产量和果实品质的影响.湖南农业科学,1997(6):39~40
[93] 邹国元,刘宝存等.施肥对蕹菜生长及品质的影响.华北农学报,2002,17(2):97~101
[94] 王景军,黄金丽.施肥处理对黄瓜营养品质的影响.临沂师范学院学报,2003,25(3):66~69
[95] 郭熙盛,吴礼数.施用氮钾肥料对蔬菜品质影响的研究进展.华中农业大学学报,2002,21(6):593~598
[96] 宋勇,刘明月等.不同基质与施肥配方对生菜产量和品质的影响.湖南农业大学学报(自然科学版),2001,28(6):495~498
[97] 郭瑞林.中国农业科技出版社.1995
[98] 邓聚龙等.农业系统灰色理论与方法.济南:山东科学技术出版社,1998
[2] 冯永军,陈为峰等.设施园艺土壤的盐化与治理对策.农业工程学报,2001,17(2):111~114
[3] 王学军.日光温室土壤次生盐渍化分析.北方园艺,1998,(3/4):12~13
[4] 王晓佳,宋明.蔬菜的污染与无污染生产.中国蔬菜,1996(3):53~55
[5] 王洪玉,王林宝等.大棚黄瓜营养与土壤供肥特性的研究.土壤通报,1992,23(3):134~136
[6] 刘德,吴凤芝.哈尔滨市郊蔬菜大棚土壤盐分状况及影响.北方园艺.1998,(6):1~2
[7] 吴志行等.大棚蔬菜连作障碍及土壤次生盐渍化原因与防止.长江蔬菜,1994,(5):21~23
[8] 薛继澄,毕德义等.保护地栽培生理障碍的土壤因子与对策.土壤肥料,1994(1):4~9
[9] 童有为,陈淡飞.温室土壤次生盐渍化的形成和治理途径研究.园艺学报,1991,18(2):159~162
[10] 侯云霞,钱光熹,王建民.上海蔬菜保护的土壤盐分状况.上海农业学报,1987,3(4):31~38
[11] 赵凤艳,吴凤芝、刘德等.大棚菜地土壤理化特性的研究.土壤肥料,2000(2):11~13
[12] 黄锦法,李艾芬等.保护地土壤障害的农化性状指标.浙江农业学报,2000,12(5):285~289
[13] 刘秀茹,王晓雪,葛晓光.有机肥与无机氮肥配合施用对菜田土壤培肥作用.土壤通报,1992,23(3):137~139
[14] 程美廷.温室土壤盐分积累、盐害及其防治.土壤肥料,1990,(1):1~4
[15] 李海云,王秀峰等.不同阴离子化肥对黄瓜生长及土壤EC、pH的影响.山东农业科学,2002,(2):16~18
[16] 沈明珠,翟保杰,东惠茹等.蔬菜硝酸盐积累的研究—不同蔬菜硝酸盐和亚硝酸盐含量评价.园艺学报,1982,9(4):41~49
[17] 吴凤芝,刘德,栾非时.大棚土壤连作年限对黄瓜产量及品质的影响.东北农业大学学报,1999,30(3):215~218
[18] 杨永林.我国北方蔬菜病害发展与防治对策.北方园艺,1988(5):1~7
[19] 吴凤芝,王伟.大棚番茄土壤微生物区系研究.北方园艺,1999(3):1~2
[20] 喻景权,杜尧舜.蔬菜设施栽培可持续发展中的连作障碍问题.沈阳农业大学学报,2000,31(1):124~126
[21] 吕卫光,张春兰.有机肥减轻黄瓜连作自毒作用的机制.上海农业学报,2002,18(2):52-56
[22] 梁银丽,陈志杰等.日光温室不同连作年限对黄瓜生理特性的影响.西北植物学报,2003,23(8):1398~1401
[23] 吴建繁,王运华.无公害蔬菜营养与施肥研究进展.植物学通报,2000,17(6):492~503
[24] 红云.有机农业是农业发展的百年大计.农业环境与发展,1998(2):45~46
[25] 尚秀荣.绿色食品.食品研究与开发,1993(1):5-7
[26] Jeff Mitchell, Mark Gaskell, ect. Soil management and soil quality for organic crops. Organic vegetable production in California scales. Division of Agriculture and Natural Resources. Pubilcation 7249, 2000
[27] 大前加阳子,福留红二等,牛粪堆肥施用生育,收量,品质,培养土理化学的性质及影响,鹿大农学术报告,2003,53,1~14
[28] 中野明正,上原洋—等,堆肥施用收量,糖度,无机成分d~(15)N值与影响,日本土壤肥料学杂志,2003,74(6):737-741
[29] 蒲岛泰文,须贺有子,福永亚矢子等.有机物连用圃场品质.近郊中国四国农业研究研究报告,2002(1):61~75
[30] Mark Gaskell, Jeff Mitchell, ect. Soil management and soil quality for organic crops. Organic vegetable production in California series. Division of Agriculture and Natural Resources. Pubilcation 7248, 2000
[31] Jolanta Franczuk. The fertilizer value of straw and summer catch crops from non-papilionaceous plants in relation to vegetable yielding. Electronic Journal of Polish Agricultural Universities, Horticultrue, 2003, 6 (1)
[32] 林抗美,冒乃和等.欧盟有机农业植物营养和肥料使用的法律要求.农业环境与发展,2003,(4):43~45
[33] 全国农牧渔业丰收计划办公地,农业部种植业管理司,全国农业技术推广服务中心主编.无公害蔬菜生产技术.中国农业出版社,2002年5月第一版
[34] 涂仕华.化肥在农业可持续发展中的作用与地位.西南农业学报,2003,16(增刊):7—11
[35] 杨林书,阎成.秸秆资源化考略.农业环境保护,1993,12(6):271~273
[36] 刘玉芝,刘佳莹.大棚土壤理化性状综合分析及改良方法.北方园艺,1996(4):35~36
[37] 李春九,马国瑞等.新型有机复肥对土壤及蔬菜产量品质的影响.浙江大学学报(农业与生命科学版)1999,25(4):392~396
[38] 张春兰,张耀东,姚惠琳等.施用稻草对防治保护地土壤盐渍化的作用.土壤.1994,26(3):146~148)
[39] 陈晓红,邹志荣.温室蔬菜栽培连作障碍研究现状及防治措施.陕西农业科学,2002(12):16~18
[40] 于占东,宋述尧.非腐解有机物配施生物菌剂对设施土壤理化性质的影响.吉林农业大学学报,2001,23(4):69~71,74
[41] 于希臣,李德新等.秸秆直接还田的作用.辽宁农业科学,1998(2):39~40
[42] 马鄂超.略论秸秆还田的效果及其措施.新疆农业科学,1989(5):37~38
[43] 方兴龙,董胜桃.有机肥对塑料大棚内地温及作物生长的影响.安徽农业科学,2001,29(4):504~505,508
[44] 张锐,严慧峻等.有机肥在改良盐渍土中的作用.土壤废料,1997(4):11~14
[45] 小田雅行,铃木则夫等.有机物施用设施野菜盐类高浓度障害对策.野菜试验场报告,1985(13):21~32
[46] 崛兼明,福永亚矢子,等.有机栽培农家圃场土壤实态.近郊中国四国农业研究研究报告,2002(1):77~94
[47] 林葆.充分发挥我国肥料的增产效果,《中国土壤科学的现状与展望》中国土壤学会主编,1991,29~36,江苏科学出版社
[48] 孙羲,章永松等.有机肥料对于提高土壤肥力和作物产量的研究.中国土壤学会《现代中国土壤科学进展》(英文)参加第13届国际土壤学会论文集中.1986:197~206
[49] 柴文北,刘大庆等.速腐秸秆肥肥效研究.安徽农业科学,2001,29(2):209~211
[50] 刘秀茹,王晓雪,葛晓光.有机肥与无机氮肥配合施用对菜田土壤培肥作用.土壤通报,1992,23(3):137~139
[51] 穆琳,张继宏,关连珠.不同施肥条件下土壤有机质演变规律.沈阳农业大学学报,1998,29(1):59~64
[52] 魏朝富,陈世正,谢德体.长期施用有机肥对紫色水稻土有机无机复合性状的影响.土壤学报,1995,32(2):159~166
[53] Sun X.1986:Effects of organic manure on soil Fertility and crop production. Current progress in soil research in P.R. China, p197-206
[54] 赵兰坡.施用作物秸秆对土壤的培肥作用.土壤通报,1996,27(2):76~78
[55] 杨玉爱,王珂等.有机肥料研究及展望.土壤学报,1996,33(4):419~422
[56] 陈文新.土壤和环境微生物学(M).北京:北京农业大学出版社,1990,91~94
[57] 刘海琴,王志明等.施加有机肥对土壤微生物量及其周转的影响.江苏农业科学,2002(5):69~70
[58] 杨玉爱,叶正钱,陈峰等.有机肥延缓日本黄瓜早衰作用的影响.土壤学报,1994,29(4):会447~450
[59] 张兴梅,张之一,王法清.黑龙江八一农垦大学学报.2003,15(2):4~7
[60] 宿庆瑞.玉米秸秆肥对土壤肥力及作物产量的影响.黑龙江农业科学,1998(3):30~33
[61] 沈中泉,郭云桃.有机无机肥料配合施用对烟草品质的影响.烟草科技,1988,(6):27~31
[62] 金维续,赵学蕴等.厩肥与氮肥配合对蔬菜品质影响的研究.中国农业科学,1985(3):52~56
[63] 吴多三.蔬菜品质与施肥.北京农业科学,1997,15(1):27~31
[64] 高祖明,张耀栋等.氮磷钾对叶菜硝酸盐积累和硝酸还原酶、过氧化物酶活性的影响.园艺学报,
1989, 16 (4): 293~297
[65] Corre WJ and Breimer T. Nitrate and nitrite in vegtable .Wageningen Center for Agriculture Publishing and documentation. 1979,85
[66] WHO:Nitrates, Nitrites and N-titroso Coumpounds,Environmental Health Criteria,1977 (5)
[67] 申秀英,许晓路.蔬菜硝酸盐积累机制及影响因素.农业环境与发展,1998,57(3):4~5,20
[68] 松本真悟,阿江教治等.有机质肥料施用生育硝酸,酸,酸含量及影响,日本土壤肥料学杂志,1999,70(1):31~38
[69] Stevenson F J,1994,Humus Chemistry. Wiley, New York,USA
[70] Steingrover E,Woldendro j,Sijtsma L,1986.Nitrate acuumulation and its relation to leaf eloogation in spinach leaves.Journal and experimental Botany,37 (181) :1093~1102
[71] 殷永娴,张春兰,姚惠琳.增施秸秆对蔬菜保护地土壤微生物的影响.土壤通报,1996,27(5):239~封三
[72] 宋述尧.玉米秸秆还田对塑料大棚蔬菜连作土壤改良效果研究(初报)[J].农业工程学报,1997,22(1):135~139
[73] 崔俊涛,王呈玉.土壤微生物学实验指导.吉林农业大学自编第ZY-005
[74] 白宝璋,孙存华等.植物生理学.中国农业科技出版社.1996,(第二版),32
[75] Mays, D.A., Terman, GL.,Duggan,J.C.,Municipal composts: effects on crop yields and soil properties.J. Environ. Qual. 1973 (2) :517~527
[76] 高云超,秸秆覆盖免耕土壤微生物量与养分转化的研究,中国农业科学,1994,27(6):41~49
[77] 洪坚平,谢英荷.不同施肥条件下土壤微生物生物量的研究.山西农业大学学报,1996,16(1):19~21
[78] 方正,许海光,张立锋.秸秆直接还田的微生物学效应.河北农业大学学报,1991,14(1):19~22
[79] 张历,马德华等.土壤B/F值与黄瓜生长关系的初探.天津农业科学,1992(1):9~11
[80] 丁秀华,邱润泽.保护地蔬菜生产生态环境的改善及其对病虫害发生的影响.现代化农业,1995(11):15~16
[81] 陆炳章,陈正斌.绿肥对改良盐土的生物学效应.江苏农业科学,1984(5):30~33
[82] 高强,李亚峰.有机复混肥对土壤及甜椒产量和品质的影响.吉林农业大学学报,2001,23(4):75~78
[83] 蔡燕飞,廖宗等.生态有机肥对番茄青枯病及土壤微生物多样性的影响.应用生态学报,2003,14(3):349~353
[84] 葛晓光,王晓雪等.长期定位施用氮肥对蔬菜产量的影响.中国蔬菜,1996(5):1~5
[85] 张恩平,张淑红,葛晓光.土壤有效养分含量对保护地茄子产量及品质影响.沈阳农业大学学报,2000,31(1):75~77
[86] 刘恩才,陈永祥等.玉米根茬、秸秆还田的增产效应的研究.土壤通报,1998,29(1):11~13
[87] 宋日,吴春胜等.有机无机肥料配合施用对玉米根系的影响.作物学报,2002,28(3):393~396
[88] 赵秀兰,许大志等.玉米根茬还田对土壤肥力的影响研究简报.土壤通报,1998,29(1):14~16
[89] 罗兴根,吴刚,赵林海.热带亚热带土壤科学,1998,7(3):245~247
[90] 魏国强,孙志强等.不同施肥量对温室基质栽培番茄产量与品质的影响.河南农业大学学报,2000,34(4):385~387
[91] Dorothea C. Smith, Vihitha Beharee, Jeffrey C. Hughes. Effects of composts produced by a simple composting procedure on the yields of Swiss Chard and common bean. Scientia horticulturae 91 (2001): 393~406
[92] 李谷香,罗赫荣,黄秋林.有机肥与化肥配施对无子西瓜产量和果实品质的影响.湖南农业科学,1997(6):39~40
[93] 邹国元,刘宝存等.施肥对蕹菜生长及品质的影响.华北农学报,2002,17(2):97~101
[94] 王景军,黄金丽.施肥处理对黄瓜营养品质的影响.临沂师范学院学报,2003,25(3):66~69
[95] 郭熙盛,吴礼数.施用氮钾肥料对蔬菜品质影响的研究进展.华中农业大学学报,2002,21(6):593~598
[96] 宋勇,刘明月等.不同基质与施肥配方对生菜产量和品质的影响.湖南农业大学学报(自然科学版),2001,28(6):495~498
[97] 郭瑞林.中国农业科技出版社.1995
[98] 邓聚龙等.农业系统灰色理论与方法.济南:山东科学技术出版社,1998
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