生态型无土栽培的营养调控研究
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摘要
试验选取重庆地区农业废弃物菌渣、秸秆以及河沙作为栽培基质,采用商品有机肥福尔地、田必施,通过田间试验和盆栽生物试验相结合的方法,研究栽培基质的筛选、有机肥的肥效及利用率问题,旨在为重庆市的生态型无土栽培提供科学依据。研究结果表明:
1.大棚基质栽培试验表明,在施肥量相同的情况下,不同固体基质处理的小白菜和生菜的产量、品质都优于土壤栽培(CK)。
2 大棚基质栽培试验表明,在各种有机、无机基质配比中,菌渣、河沙、秸秆的最佳体积比是菌渣:秸秆:河沙=3:0:1。在此条件下,栽培的生菜和小白菜的产量、品质均优于其它配比的固体基质。
3 盆栽生物试验表明,施用有机肥田必施,其固体基质栽培的辣椒比土壤栽培的提前7天开花,结果,并提前上市;而施用有机肥福尔地,固体基质栽培的辣椒和土壤栽培的生育期相当。
4 在土壤栽培中,施用有机肥福尔地比施用田必施能使作物生育期提前。试验表明,施用有机肥福尔地的土壤栽培中,辣椒的成熟期比施用田必施的提早7天。
5 在以菌渣:秸秆:河沙=3:0:1比例的混合固体基质栽培模式下,商品有机肥福尔地、田必施盆栽试验最佳施肥量是11g/盆;田间推荐施肥量田必施为3126kg/hm~2,福尔地为3230kg/hm~2。
6 商品有机肥中N、P、K元素的利用率较高。试验表明,有机肥田必施中N元素的利用率高达68%,P元素和K元素的利用率最高达32.7%和67.1%;有机肥福尔地中N元素利用率最高为60.7%,P元素和K元素分别高达26.8%、38.1%。
生泳足天土裘潜的@卑沿么牙氏
用率最高为 60.7o,P元素和 K元素分别高达 26.8O、38.1O。
7.施肥量相同的情况下,固体基质栽培中施用的有机肥福尔地、田必施的N、P、K元
素利用率与土壤栽培的相当或略高。
8.固体基质(菌渣:秸秆:河沙二3:0:l)加有机肥(福尔地、田必施)栽培模式生产
的蔬菜能达到“绿色食品”蔬菜生产要求。分析表明,有机肥福尔地、田必施和菌渣的重金
属含量达到“绿色食品”蔬菜的生产标准:且蔬菜硝酸盐含量极低,达到无公害蔬菜的硝酸
盐限量标准。
Choosing ChongQing district agriculture object discarded fungus Dregs % straw as well as river sand as substrate,experiment is carried on in the pot and in field using commercial organic fertilizer Fu erdi and Tian Bishi,studying the selecting of substrate and fertilizer effect and utilization efficency of organic fertilizer,aiming at providing the science basis for the ecotype soilless culture of ChongQing city.Results achieved were as follows:
1. Experiment of vegetable cultivation in soild substrate indicates that yield and quality of the Chinese cabbage and lettuce of different substrate treatments are better than of that is cultivated in soil(Ck),In the same quantity of fertilizer.
2. Experiment of vegetable cultivation in soild substrate indicates that At the various matching ratio of organic and inorganic substrate.the optimal volume ratio of fungus dregs^ straw and sand is 3:0:1.In solid substrate(fungus dregs:straw:sand=3:0:l),yield and quality of lettuce and Chinese cabbage are superior to that are cultivated in other soild substrate.
3. Experiment of cultivation in the pot indicates, Using organic fertilizer Fu erdi,hot pepper that is cultivated in solid substrate blossom. bear and go on the market earlier 7 days than that is cultivated in soil; but using organic fertilizer Tian bishi,the birth phase of hot pepper in solid substrate and soil is the same.
4. In the soil cultivation,using organic fertilizer Fu erdi can make birth phase of the crop earlier than using Tian Bishi.Experiment in pot indicates,using organic fertilizer Fu erdi in soil
cultivation.the maturity period of hot pepper is earlier 7 days than using organic fertilizer Tian Bishi in soil cultivation.
5. under the cultivation model of the fungus dreg:straw:sand=3:0:l(vol proportion), optimal quantity of commercial organic fertilizer Fu erdi and Tian Bishi in pot is llg/pot, and using Tian Bishi quantities of fertilizer recommended in the field is 3126kg/hm2,using Fu erdi quantities of fertilizer recommended in the field is 3230kg/ hm2.
6. The utilization efficiency of the element of NX P and K in commercial organic fertilizer is very high.Experiment indicates,the utilization efficiency of N in organic fertilizer Tian Bishi reachs 68%,P and K reachs 32.7% and 67.1%,respectively. the utilization efficiency of N in organic fertilizer Fu erdi reachs 60.7%,the element of P and K reach 26.8% and 38.1%,respectively.
7. In the same quantity of fertilizer,The utilization efficiency of NX P and K of organic fertilizer Tian Bishi and Fu erdi in solid substrate is the same or slightly high with in soil.
8. Vegetables that are cultivated in solid substrate(fungus dreg:straw:sand=3:0:l) using organic fertilizer(Fu erdi and Tian Bishi) can reach the standard of'green food'Vegetable production.The analysis indicates,the heavy metal content of organic fertilizer Fu erdi> Tian Bishi and fungus dregs achieves the production standard of "green food",nitrate content of vegetables is extremely low, and keeping in the standard of safety limit.
1.大棚基质栽培试验表明,在施肥量相同的情况下,不同固体基质处理的小白菜和生菜的产量、品质都优于土壤栽培(CK)。
2 大棚基质栽培试验表明,在各种有机、无机基质配比中,菌渣、河沙、秸秆的最佳体积比是菌渣:秸秆:河沙=3:0:1。在此条件下,栽培的生菜和小白菜的产量、品质均优于其它配比的固体基质。
3 盆栽生物试验表明,施用有机肥田必施,其固体基质栽培的辣椒比土壤栽培的提前7天开花,结果,并提前上市;而施用有机肥福尔地,固体基质栽培的辣椒和土壤栽培的生育期相当。
4 在土壤栽培中,施用有机肥福尔地比施用田必施能使作物生育期提前。试验表明,施用有机肥福尔地的土壤栽培中,辣椒的成熟期比施用田必施的提早7天。
5 在以菌渣:秸秆:河沙=3:0:1比例的混合固体基质栽培模式下,商品有机肥福尔地、田必施盆栽试验最佳施肥量是11g/盆;田间推荐施肥量田必施为3126kg/hm~2,福尔地为3230kg/hm~2。
6 商品有机肥中N、P、K元素的利用率较高。试验表明,有机肥田必施中N元素的利用率高达68%,P元素和K元素的利用率最高达32.7%和67.1%;有机肥福尔地中N元素利用率最高为60.7%,P元素和K元素分别高达26.8%、38.1%。
生泳足天土裘潜的@卑沿么牙氏
用率最高为 60.7o,P元素和 K元素分别高达 26.8O、38.1O。
7.施肥量相同的情况下,固体基质栽培中施用的有机肥福尔地、田必施的N、P、K元
素利用率与土壤栽培的相当或略高。
8.固体基质(菌渣:秸秆:河沙二3:0:l)加有机肥(福尔地、田必施)栽培模式生产
的蔬菜能达到“绿色食品”蔬菜生产要求。分析表明,有机肥福尔地、田必施和菌渣的重金
属含量达到“绿色食品”蔬菜的生产标准:且蔬菜硝酸盐含量极低,达到无公害蔬菜的硝酸
盐限量标准。
Choosing ChongQing district agriculture object discarded fungus Dregs % straw as well as river sand as substrate,experiment is carried on in the pot and in field using commercial organic fertilizer Fu erdi and Tian Bishi,studying the selecting of substrate and fertilizer effect and utilization efficency of organic fertilizer,aiming at providing the science basis for the ecotype soilless culture of ChongQing city.Results achieved were as follows:
1. Experiment of vegetable cultivation in soild substrate indicates that yield and quality of the Chinese cabbage and lettuce of different substrate treatments are better than of that is cultivated in soil(Ck),In the same quantity of fertilizer.
2. Experiment of vegetable cultivation in soild substrate indicates that At the various matching ratio of organic and inorganic substrate.the optimal volume ratio of fungus dregs^ straw and sand is 3:0:1.In solid substrate(fungus dregs:straw:sand=3:0:l),yield and quality of lettuce and Chinese cabbage are superior to that are cultivated in other soild substrate.
3. Experiment of cultivation in the pot indicates, Using organic fertilizer Fu erdi,hot pepper that is cultivated in solid substrate blossom. bear and go on the market earlier 7 days than that is cultivated in soil; but using organic fertilizer Tian bishi,the birth phase of hot pepper in solid substrate and soil is the same.
4. In the soil cultivation,using organic fertilizer Fu erdi can make birth phase of the crop earlier than using Tian Bishi.Experiment in pot indicates,using organic fertilizer Fu erdi in soil
cultivation.the maturity period of hot pepper is earlier 7 days than using organic fertilizer Tian Bishi in soil cultivation.
5. under the cultivation model of the fungus dreg:straw:sand=3:0:l(vol proportion), optimal quantity of commercial organic fertilizer Fu erdi and Tian Bishi in pot is llg/pot, and using Tian Bishi quantities of fertilizer recommended in the field is 3126kg/hm2,using Fu erdi quantities of fertilizer recommended in the field is 3230kg/ hm2.
6. The utilization efficiency of the element of NX P and K in commercial organic fertilizer is very high.Experiment indicates,the utilization efficiency of N in organic fertilizer Tian Bishi reachs 68%,P and K reachs 32.7% and 67.1%,respectively. the utilization efficiency of N in organic fertilizer Fu erdi reachs 60.7%,the element of P and K reach 26.8% and 38.1%,respectively.
7. In the same quantity of fertilizer,The utilization efficiency of NX P and K of organic fertilizer Tian Bishi and Fu erdi in solid substrate is the same or slightly high with in soil.
8. Vegetables that are cultivated in solid substrate(fungus dreg:straw:sand=3:0:l) using organic fertilizer(Fu erdi and Tian Bishi) can reach the standard of'green food'Vegetable production.The analysis indicates,the heavy metal content of organic fertilizer Fu erdi> Tian Bishi and fungus dregs achieves the production standard of "green food",nitrate content of vegetables is extremely low, and keeping in the standard of safety limit.
引文
[1]连兆煌.无土栽培原理与技术.北京:中国农业出版社,1994.
[2]黄科,吴秋云.无土栽培的现状与展望,福建农业科技,2001(2):14~16
[3]张效梅.日本无土栽培的现状及其发展前景.科技情报开发与经济,1996,vol(6):41~43
[4]郑光华.西欧和北美的无土栽培.农业工程学报,1987(1):48~50
[5]孙立勇,朱玉东.美国蔬菜无土栽培技术,世界农业,2001,3(总263期):46~48
[6]郑光华,刘广树.国内外无上栽培的现状与展望.中国蔬菜,1992,增刊:4~7
[7]冯学杰,梁振深,谢良商.海南无土栽培的现状与展望,中国蔬菜,2000(增刊):61~63
[8]吴正荣,邹志荣.无土栽培的优点及其在我国的发展前景.蔬菜,2002(1):23~24
[9]王化.中国蔬菜无土栽培发展历史的初步探讨,中国蔬菜,1999(2):11~12
[10]肖宝珠,肖庆元.无土栽培技术的应用前景.湖南农业科学,1994(2):23~24
[11]蒋卫杰,郑光华,汪浩等.有机生态型无土栽培技术及其营养生理基础.园艺学报,1996,23(2):141~143
[12]蒋卫杰,余宏军,刘伟.有机生态型无土栽培技术在我国迅猛发展.中国蔬菜,2000(增刊):35~39
[13]余兆海,韩玉科.国外无土栽培的现状与展望.农牧情报研究,1988(9):67~69
[14]谢伟平,邵祖立.广东省无土栽培的现状及发展方向.广东农业科学 1998(1):18~20
[15]孙竹波,汪东,柳新明等.我国蔬菜无土栽培研究应用进展及发展前景.北方园艺,2000(2):11~12
[16]方仲根.现代无土栽培技术.华南热带科学,1998(4):37~39
[17]李式军,高丽红,庄仲连.我国无土栽培的新技术新成果新动向.农业工程学报,1996,增刊:123~128
[18]柴晓芹.无土栽培及其发展趋势.甘肃农业科技,1999(1):4~5
[19]李书民.不同基质和营养液条件对结球莴苣生长的影响.中国蔬菜,1991(1):8~10.
[20]倪吾钟,何积秀,任敏等.不同基质对黄瓜幼苗营养状况及生长的影响.浙江农业科学,2001(5):229~231
[21]张淑东,王法格,熊自立.不同基质配比培育叶用莴苣秧苗试验.上海蔬菜,2001(4):35
[22]余纪柱,叶明华.不同基质盆栽番茄比较试验.上海农业科学,1992,(2):33~35
[23]李静,赵秀兰,魏世强.无公害蔬菜无土栽培基质理化特性研究.西南农业大学学报,2000.4,vol22(2):112~115
[24]李东,王星红,宋凤英.无土栽培中常出现的生理性障碍及防治对策.宁夏农林科技,2001,vol5.(3):14~15
[25]谢嘉霖,谢嘉华.无土栽培营养液配制中常见的问题.泉州师范学院学报(自然科学)2000 Vol.18(4):60~63
[26]吕卫光,赵京音,姚政等.现代化温室无土栽培番茄营养液管理技术调查.中国蔬菜,2002(1):18~19
[27]袁四清.改进型有机生态无土栽培技术,长江蔬菜.2000(7):12~13
[28]蒋卫杰,刘伟,余宏军.我国有机生态型无土栽培技术研究.生态农业研究,2000 vol8,No.3:45~47
[29]白纲义.有机生态型无土栽培营养特点及其生态意义.中国蔬菜,2000(增刊):40~45
[30]杨竹青,何波,张劲松等.基质无土栽培施肥量试验,长江蔬菜,1994(3):32~33
[31]周崇峻,邹德乙,王春枝等.腐殖酸液肥在无土栽培中应用对番茄产量和品质的影响初报.辽宁农业科学,2000(6):45~47
[32]黄云,廖铁军,欧国武等.大棚蔬菜无土栽培固体基质筛选的研究.西北农业学报,2002,11(1):87~91
[33]赵凤艳,魏自明.氮肥施用量对蔬菜产量和品质的影响.农业系统科学与综合研究,2001,17(1):11~12
[34]何天秀.作物钾素营养与诊断[M].成都,成都科技大学出版社 1994:45,70
[35]李俊良,李晓林,崔德杰等.山东寿光保护地蔬菜施肥现状及问题的研究.土壤通报,2002,4,33(2):127
[36]韩雅珊.食品化学实验指导[M].北京:中国农业大学出版社,1996,9~10,189~191,75~77
[37]李合生,孙群,赵世杰等.植物生理生化实验原理和技术[M].北京:高等教育出版社,2000,192~194,197~199
[38]高祖明,张耀栋,张道勇等.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[J].园艺学报 1980,16(4):294
[39]赵九洲,陈洁敏,王义庆等.六种无土栽培代用基质理化特性的比较.莱阳农学院学报,2001,18(3):161~164
[40]荆延德,元建中,张志国.花卉栽培基质研究进展.浙江林业科技.2001,vol21(6):68~71
[41]王红梅,黄光.不同配比的有机生态型基质对大棚辣椒生长的影响.生产率系统,2002,1(总29):1,3
[42]孙红梅,李天来,须晖等.不同氮水平下钾营养对大棚番茄产量和品质的影响.沈阳农业大学学报,2000-02,31(1):68~71
[43]黄科,刘明月,蔡雁平等.氮磷钾施用量与辣椒品质的相关性研究.江西农业大学学报(自然科学版),2002,6(3):364~367
[44]林碧英,花秀凤,高山.番茄无土栽培与土培对比试验.福建农业科技,1999(6):11
[45]崔秀敏,王航峰.蔬菜育苗基质及其研究进展.长江蔬菜,1992,(4):23~24
[46]黄建安,傅显华,云永利.蔗渣在花卉无土栽培基质中的应用,甘蔗糖业,1995(1):14~17
[47]秦嘉海,陈广泉,肖占文.几种全营养混合基质的理化性状比较及在番茄生产中的应用.甘肃农业科技,2000(4):36~37
[48]张华,刘钧如,谭伯杭等.不同基质对番茄生长的影响初探.广东农业科学,1996(1):22~24
[49]寿伟林,徐志豪,何圣米等.无土栽培中岩棉基质用量对葫芦生长发育及产量的影响.浙江农业科学,1999(5):237~238
[50]陶正平,贾卫国,成达武等.利用有机肥料进行基质床式番茄无土栽培初报.吉林农业科学,1995(3):58~59
[51]田丽萍,沈兵,李天林等.无公害番茄生菜有机—无机基质培技术的研究.石河子大学学报(自然科学版),1998,vol2,(3):187~190
[52]伊鸿平,吴明珠,冯炯鑫.哈密瓜有机生态型无土栽培技术研究.中国西瓜甜瓜,2002(2):2~4
[53]林大厚等.不同基质配比对大棚黄瓜生长的影响.中国蔬菜,1992(3):25—27
[54]宋荣霄,廖植樨,王儒钧.用几种天然固体基质栽培番茄的比较试验(初报).北京农业工程大学学报.1990,vol10,(1):82~85
[55]户刘又次.作物生物讲座.上海:上海科技出版社,1996:204~205
[56]郑光华等.不同基质对番茄长季节栽培的生长效应,园艺学报 1989.16(1):34
[57]许彦平等.早春温室果菜类生态型无土栽培技术试验.甘肃气象,1999,17(4)
[58]王晓佳等.蔬菜的污染与无污染蔬菜生产.中国蔬菜,1996(3):53~55
[59]王利英等.浅谈无公害蔬菜生产.天津农业科技,1999,5(2):53~55
[60]王利英,郭雪梅.两种无土栽培基质在韭菜生产上的应用.天津农业科学,2001,vol7(1):43~45
[61]荣湘民,刘强,谭长银等.蔬菜无土栽培技术的研究.湖南农学院学报,1995,Vol21,(2):32~34
[62]赵恒田,王新华.寒区草莓无土栽培品种与基质筛选试验.农业系统科学与综合研究,2001,vol17,(4):319~320
[63]郭世荣,李式军,程斐等.有机基质培在蔬菜无土栽培上的应用研究.2000,31(1):89~92
[64]齐慧霞,周丽艳,李双民.草莓无土栽培中几种基质的研究(简报).河北农业技术师范学院学报,1998,vol12,(1):71~73
[65]李萍萍,胡永光,李式军等.芦苇末有机基质在蔬菜栽培上应用效果的研究.沈阳农业大学学报,2000,31(1):93~95
[66]刘瑞涵,冯海发.北京农户蔬菜生产经济效益分析,北京农学院学报,1999,vol14(2):14~18
[67]谭学文.温室番茄岩棉培技术及经济效益分析.北京农业科学,1996,vol14(3):39~40
[68]中国农业百科全书编辑委员会.中国农业百科全书(农业化学卷).北京:农业出版社,79
[69]李萍萍,毛罕平,王多辉.苇末菇渣在蔬菜基质栽培中的应用效果.中国蔬菜,1998(5):12~15
[70]夏汉平.土壤-植物系统中的镉研究进展.应用与环境生物学报.1997,3(3):289~294
[71]翁焕新,张霄宇,张兴茂等.中国土壤中砷的自然存在状况及其成因分析.浙江大学学报,2000,vol34(1):88~91
[72]史崇文,郭新波,杜忠义.山西土壤Hg、Cd、As、Pb最高允许浓度研究.华北地质矿产杂志.1996,vol11(2):189~192
[73]黄昌勇.土壤学[M],北京:中国农业出版社,1999:272~274
[74]张国祥,杨居荣,华珞.土壤环境中的砷及其生态效应.土壤,1996(2);64~66
[75]樊文华,陈政民.五台山草地自然保护区土壤中铬含量分布及影响因素的研究.1999(4):217~219
[76]吴燕玉,王新,陈怀满.Cd、Pb、Cu、Zn、As复合污染在农田生态系统的迁移动态研究.环境科学学报,1998,vol18,(4):409~412
[77]Jensen.m.H.andW. L.Collins.Hydroponic vegetabl production.Horticulture, Review. 1985 Vol.7: 4~7
[78]Boodey,C.J.1984.Foam substrate applications in North America.Sixth International congress on soilless culture. Lunteren.Proceedings.34~36
[79]Grave,C.J.1983 The nutrient film technique.Hort.Rev.5:1~4
[80]Greenhouse cucumber and tomatoes,1986.Province of British Colombia,Ministry of Agriculture and Food. 24~26
[81]Jiangweijie,Liuwei,YuHongjun,Development of Soilless Culture in Mainland China.Transactions of the CSAE,Vol.17,No.1: 11~14
[82]Li Guo-Jing,Xu Zhi-Hao,F.Benoit. The application of polyurethane ether foam(PEF) to soilless culture as an reusable and environmental sound substrate, Journal of zhejiang agriculture 2001,13(2): 61~66
[83]Benoit F,Ceusternans N.Polyurethane ether foam(PEF) an ecological substrate for soilless growing. Polymer Recycling,1996,2(2):109~116
[84]Li GJ,XU ZZ. Discussion on the development of soilless culture in china.Journal of Changjiang Vegetables,1997(4):1~4
[85]Hardgrave M, An evolution of Polyurethane foam an reusable substrate for hydroponic cucumber Production. Acta Horticulture 1995,401:201~205
[86]LI Guo-jing,XU Zhi-Hao,N.Ceustermans.The Possibilities of Chinese reed fibres as an environmental sound organic substrate.Acta Agriculturae Zhejiangensis 2002,14(2):87~92
[87]BO Dwyer.Changes in physical and chemical properties of composts basedon cattle slurry and milled pear during incubation.Acta-hort,1989,(238):181~188
[88]Douglas J.S. Advanced guide to hydroponics. 1984,Pelham Books.London,5~10
[89]Hsieh, S.C, Concept and Practice of nature farming in subtropics. 1992,Nature farming 4:1
[90]Chen Y.,Gottesman.A. and Aviad.T. The use of bottom-ash coal cinder amended with compost as a container medium in hortculture. 1991,Acta Hortculture,294:204~209
[91]Y Inbar and Y Chen. The use of composted separated cattle manure and grape mare as peat substitute in borticulture.Acta-hort,1986,(178):147~154
[2]黄科,吴秋云.无土栽培的现状与展望,福建农业科技,2001(2):14~16
[3]张效梅.日本无土栽培的现状及其发展前景.科技情报开发与经济,1996,vol(6):41~43
[4]郑光华.西欧和北美的无土栽培.农业工程学报,1987(1):48~50
[5]孙立勇,朱玉东.美国蔬菜无土栽培技术,世界农业,2001,3(总263期):46~48
[6]郑光华,刘广树.国内外无上栽培的现状与展望.中国蔬菜,1992,增刊:4~7
[7]冯学杰,梁振深,谢良商.海南无土栽培的现状与展望,中国蔬菜,2000(增刊):61~63
[8]吴正荣,邹志荣.无土栽培的优点及其在我国的发展前景.蔬菜,2002(1):23~24
[9]王化.中国蔬菜无土栽培发展历史的初步探讨,中国蔬菜,1999(2):11~12
[10]肖宝珠,肖庆元.无土栽培技术的应用前景.湖南农业科学,1994(2):23~24
[11]蒋卫杰,郑光华,汪浩等.有机生态型无土栽培技术及其营养生理基础.园艺学报,1996,23(2):141~143
[12]蒋卫杰,余宏军,刘伟.有机生态型无土栽培技术在我国迅猛发展.中国蔬菜,2000(增刊):35~39
[13]余兆海,韩玉科.国外无土栽培的现状与展望.农牧情报研究,1988(9):67~69
[14]谢伟平,邵祖立.广东省无土栽培的现状及发展方向.广东农业科学 1998(1):18~20
[15]孙竹波,汪东,柳新明等.我国蔬菜无土栽培研究应用进展及发展前景.北方园艺,2000(2):11~12
[16]方仲根.现代无土栽培技术.华南热带科学,1998(4):37~39
[17]李式军,高丽红,庄仲连.我国无土栽培的新技术新成果新动向.农业工程学报,1996,增刊:123~128
[18]柴晓芹.无土栽培及其发展趋势.甘肃农业科技,1999(1):4~5
[19]李书民.不同基质和营养液条件对结球莴苣生长的影响.中国蔬菜,1991(1):8~10.
[20]倪吾钟,何积秀,任敏等.不同基质对黄瓜幼苗营养状况及生长的影响.浙江农业科学,2001(5):229~231
[21]张淑东,王法格,熊自立.不同基质配比培育叶用莴苣秧苗试验.上海蔬菜,2001(4):35
[22]余纪柱,叶明华.不同基质盆栽番茄比较试验.上海农业科学,1992,(2):33~35
[23]李静,赵秀兰,魏世强.无公害蔬菜无土栽培基质理化特性研究.西南农业大学学报,2000.4,vol22(2):112~115
[24]李东,王星红,宋凤英.无土栽培中常出现的生理性障碍及防治对策.宁夏农林科技,2001,vol5.(3):14~15
[25]谢嘉霖,谢嘉华.无土栽培营养液配制中常见的问题.泉州师范学院学报(自然科学)2000 Vol.18(4):60~63
[26]吕卫光,赵京音,姚政等.现代化温室无土栽培番茄营养液管理技术调查.中国蔬菜,2002(1):18~19
[27]袁四清.改进型有机生态无土栽培技术,长江蔬菜.2000(7):12~13
[28]蒋卫杰,刘伟,余宏军.我国有机生态型无土栽培技术研究.生态农业研究,2000 vol8,No.3:45~47
[29]白纲义.有机生态型无土栽培营养特点及其生态意义.中国蔬菜,2000(增刊):40~45
[30]杨竹青,何波,张劲松等.基质无土栽培施肥量试验,长江蔬菜,1994(3):32~33
[31]周崇峻,邹德乙,王春枝等.腐殖酸液肥在无土栽培中应用对番茄产量和品质的影响初报.辽宁农业科学,2000(6):45~47
[32]黄云,廖铁军,欧国武等.大棚蔬菜无土栽培固体基质筛选的研究.西北农业学报,2002,11(1):87~91
[33]赵凤艳,魏自明.氮肥施用量对蔬菜产量和品质的影响.农业系统科学与综合研究,2001,17(1):11~12
[34]何天秀.作物钾素营养与诊断[M].成都,成都科技大学出版社 1994:45,70
[35]李俊良,李晓林,崔德杰等.山东寿光保护地蔬菜施肥现状及问题的研究.土壤通报,2002,4,33(2):127
[36]韩雅珊.食品化学实验指导[M].北京:中国农业大学出版社,1996,9~10,189~191,75~77
[37]李合生,孙群,赵世杰等.植物生理生化实验原理和技术[M].北京:高等教育出版社,2000,192~194,197~199
[38]高祖明,张耀栋,张道勇等.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[J].园艺学报 1980,16(4):294
[39]赵九洲,陈洁敏,王义庆等.六种无土栽培代用基质理化特性的比较.莱阳农学院学报,2001,18(3):161~164
[40]荆延德,元建中,张志国.花卉栽培基质研究进展.浙江林业科技.2001,vol21(6):68~71
[41]王红梅,黄光.不同配比的有机生态型基质对大棚辣椒生长的影响.生产率系统,2002,1(总29):1,3
[42]孙红梅,李天来,须晖等.不同氮水平下钾营养对大棚番茄产量和品质的影响.沈阳农业大学学报,2000-02,31(1):68~71
[43]黄科,刘明月,蔡雁平等.氮磷钾施用量与辣椒品质的相关性研究.江西农业大学学报(自然科学版),2002,6(3):364~367
[44]林碧英,花秀凤,高山.番茄无土栽培与土培对比试验.福建农业科技,1999(6):11
[45]崔秀敏,王航峰.蔬菜育苗基质及其研究进展.长江蔬菜,1992,(4):23~24
[46]黄建安,傅显华,云永利.蔗渣在花卉无土栽培基质中的应用,甘蔗糖业,1995(1):14~17
[47]秦嘉海,陈广泉,肖占文.几种全营养混合基质的理化性状比较及在番茄生产中的应用.甘肃农业科技,2000(4):36~37
[48]张华,刘钧如,谭伯杭等.不同基质对番茄生长的影响初探.广东农业科学,1996(1):22~24
[49]寿伟林,徐志豪,何圣米等.无土栽培中岩棉基质用量对葫芦生长发育及产量的影响.浙江农业科学,1999(5):237~238
[50]陶正平,贾卫国,成达武等.利用有机肥料进行基质床式番茄无土栽培初报.吉林农业科学,1995(3):58~59
[51]田丽萍,沈兵,李天林等.无公害番茄生菜有机—无机基质培技术的研究.石河子大学学报(自然科学版),1998,vol2,(3):187~190
[52]伊鸿平,吴明珠,冯炯鑫.哈密瓜有机生态型无土栽培技术研究.中国西瓜甜瓜,2002(2):2~4
[53]林大厚等.不同基质配比对大棚黄瓜生长的影响.中国蔬菜,1992(3):25—27
[54]宋荣霄,廖植樨,王儒钧.用几种天然固体基质栽培番茄的比较试验(初报).北京农业工程大学学报.1990,vol10,(1):82~85
[55]户刘又次.作物生物讲座.上海:上海科技出版社,1996:204~205
[56]郑光华等.不同基质对番茄长季节栽培的生长效应,园艺学报 1989.16(1):34
[57]许彦平等.早春温室果菜类生态型无土栽培技术试验.甘肃气象,1999,17(4)
[58]王晓佳等.蔬菜的污染与无污染蔬菜生产.中国蔬菜,1996(3):53~55
[59]王利英等.浅谈无公害蔬菜生产.天津农业科技,1999,5(2):53~55
[60]王利英,郭雪梅.两种无土栽培基质在韭菜生产上的应用.天津农业科学,2001,vol7(1):43~45
[61]荣湘民,刘强,谭长银等.蔬菜无土栽培技术的研究.湖南农学院学报,1995,Vol21,(2):32~34
[62]赵恒田,王新华.寒区草莓无土栽培品种与基质筛选试验.农业系统科学与综合研究,2001,vol17,(4):319~320
[63]郭世荣,李式军,程斐等.有机基质培在蔬菜无土栽培上的应用研究.2000,31(1):89~92
[64]齐慧霞,周丽艳,李双民.草莓无土栽培中几种基质的研究(简报).河北农业技术师范学院学报,1998,vol12,(1):71~73
[65]李萍萍,胡永光,李式军等.芦苇末有机基质在蔬菜栽培上应用效果的研究.沈阳农业大学学报,2000,31(1):93~95
[66]刘瑞涵,冯海发.北京农户蔬菜生产经济效益分析,北京农学院学报,1999,vol14(2):14~18
[67]谭学文.温室番茄岩棉培技术及经济效益分析.北京农业科学,1996,vol14(3):39~40
[68]中国农业百科全书编辑委员会.中国农业百科全书(农业化学卷).北京:农业出版社,79
[69]李萍萍,毛罕平,王多辉.苇末菇渣在蔬菜基质栽培中的应用效果.中国蔬菜,1998(5):12~15
[70]夏汉平.土壤-植物系统中的镉研究进展.应用与环境生物学报.1997,3(3):289~294
[71]翁焕新,张霄宇,张兴茂等.中国土壤中砷的自然存在状况及其成因分析.浙江大学学报,2000,vol34(1):88~91
[72]史崇文,郭新波,杜忠义.山西土壤Hg、Cd、As、Pb最高允许浓度研究.华北地质矿产杂志.1996,vol11(2):189~192
[73]黄昌勇.土壤学[M],北京:中国农业出版社,1999:272~274
[74]张国祥,杨居荣,华珞.土壤环境中的砷及其生态效应.土壤,1996(2);64~66
[75]樊文华,陈政民.五台山草地自然保护区土壤中铬含量分布及影响因素的研究.1999(4):217~219
[76]吴燕玉,王新,陈怀满.Cd、Pb、Cu、Zn、As复合污染在农田生态系统的迁移动态研究.环境科学学报,1998,vol18,(4):409~412
[77]Jensen.m.H.andW. L.Collins.Hydroponic vegetabl production.Horticulture, Review. 1985 Vol.7: 4~7
[78]Boodey,C.J.1984.Foam substrate applications in North America.Sixth International congress on soilless culture. Lunteren.Proceedings.34~36
[79]Grave,C.J.1983 The nutrient film technique.Hort.Rev.5:1~4
[80]Greenhouse cucumber and tomatoes,1986.Province of British Colombia,Ministry of Agriculture and Food. 24~26
[81]Jiangweijie,Liuwei,YuHongjun,Development of Soilless Culture in Mainland China.Transactions of the CSAE,Vol.17,No.1: 11~14
[82]Li Guo-Jing,Xu Zhi-Hao,F.Benoit. The application of polyurethane ether foam(PEF) to soilless culture as an reusable and environmental sound substrate, Journal of zhejiang agriculture 2001,13(2): 61~66
[83]Benoit F,Ceusternans N.Polyurethane ether foam(PEF) an ecological substrate for soilless growing. Polymer Recycling,1996,2(2):109~116
[84]Li GJ,XU ZZ. Discussion on the development of soilless culture in china.Journal of Changjiang Vegetables,1997(4):1~4
[85]Hardgrave M, An evolution of Polyurethane foam an reusable substrate for hydroponic cucumber Production. Acta Horticulture 1995,401:201~205
[86]LI Guo-jing,XU Zhi-Hao,N.Ceustermans.The Possibilities of Chinese reed fibres as an environmental sound organic substrate.Acta Agriculturae Zhejiangensis 2002,14(2):87~92
[87]BO Dwyer.Changes in physical and chemical properties of composts basedon cattle slurry and milled pear during incubation.Acta-hort,1989,(238):181~188
[88]Douglas J.S. Advanced guide to hydroponics. 1984,Pelham Books.London,5~10
[89]Hsieh, S.C, Concept and Practice of nature farming in subtropics. 1992,Nature farming 4:1
[90]Chen Y.,Gottesman.A. and Aviad.T. The use of bottom-ash coal cinder amended with compost as a container medium in hortculture. 1991,Acta Hortculture,294:204~209
[91]Y Inbar and Y Chen. The use of composted separated cattle manure and grape mare as peat substitute in borticulture.Acta-hort,1986,(178):147~154