Arbuscular mycorrhizae have ability to improve mineral quality of fruit tree, replacing the fertilizer, so called the biological fertilizer . Paper analyzes four biological effect of arbuscular mycorrhiza, includingpromote plant growth, enhance absorption of mineral nutrition, improve water metabolism and resolve the problem of re-inseminator in fruit tree . Mechanisms of fourarbuscular mycorrhizal biological effect are explained. , as well as paper brings forward the arbuscular mycorrhizal necessity in fruit tree. Arbuscular mycorrhizal propagating is to study the hot point i n future.
WUQiang-sheng ,XIARen-xue
. Effects And Mechanisms of New Biological Fertilizer Arbuscular Mycorrhizae in Fruit Tree[J]. Chinese Agricultural Science Bulletin, 2004
, 20(2)
: 120
-120
.
DOI: 10.11924/j.issn.1000-6850.0402120
1 弓明钦,陈应龙,仲崇禄. 菌根研究及应用. 北京:中国林业出版社,1997
2GrahamJ H. Citrus mycorrhizae: Potential benefits and interactions with pathogens.HortSci.,1986,21(6):1302~1306
3 葛诚. 微生物肥料讲座:第一讲 微生物肥料概述 . 土壤肥料,1993,6:43~46
4 唐振尧,何首林. VA菌根对柑桔吸收铁素效应研究初报. 园艺学报,1990,17(4):257~261
5 Sheng T H. Vesicular-arbuscular mycorrhizal influence on growth and phosphorus nutrition of trifoliate orange in red soil. In: Huang B Y, Yang Q. Proceedings of the international citrus symposium .Bei Jing : China Building Industry Press, 1991: 502~505
6 MengeJ A. 向治安译. 有利于柑桔栽培的菌根菌接种体的经济生产 见:中国农业科学院果树研究所主编 . 果树译丛(二). 北京:.
农业出版社,1981:87~90
7Quatrini P,Gentile M,CarimiF et al . Effect of native arbuscular
mycorrhizalfungi and Glomus mosseae onacclimatization and development of micropropagated Citrus limon (L . ) Burm .J. Hort. Sci. & Bioch. ,2003,78(1):39~45
8 唐振尧,郝开兰. 内生菌根对粗柠檬吸收难溶性磷肥的作用. 园艺学报,1984,11(1):1~6
9 刘润进,李晓林 丛枝菌根及其应用. 北京:科学出版社,2000
10 Benson N R,Covey R P. 向治安译. 苹果苗对施锌和接种菌根的反应. 见:中国农业科学院果树研究所主编 . 果树译从(二). 北京:农业出版社,1981:95~97
11Menge J A,Labanauskas K C,Johnson E L V et al.Partial substitution of mycorrhizal fungi for phosphorus fertilization in the greenhouse culture of citrus. Soil Sci. Soc. Am. J.,1978,42:926~930
12 Treeby M T. The role of mycorrhizal fungi and non-mycorrhizal micro-organisms in iron nutrition of citrus. Soil Biology and Biochemist,1992,24(9):857~864
13 Peng S,Eissenstat D M,Graham J H et al.Growth depression in mycorrhizal citrus at high phosphorus supply.Plant Physiol., 1993,101:1063~1071
14 张福锁,李晓林,王敬国等编. 环境胁迫与植物根际营养. 北京:中国农业出版社,1998
15 唐振尧、何首林. 菌根促进柑桔吸收难溶性磷肥的机理研究 Ⅰ. 磷酸酶活性对柑桔吸收磷的作用. 中国柑桔,1991,20 (21):7~10
16 李晓林、曹一平. VA菌根吸收矿质养分的机制. 土壤,1993,25:274~277
17Fidelibus M W,Martin C A,Stutz J C. Geographic isolates of Glomus increase root growth and whole-plant transpiration of citrus seedlings growth with high phospherus.Mycorrhiza ,2001,10:231~236
18 鹿金颖,毛永民,申连英等. VA菌根真菌对酸枣实生苗抗旱性的影响. 园艺学报,2003,30(1):29~33
19 薛炳烨,罗新书. VAM真菌对再植桃实生苗生长的作用. 果树科学,1992,9(2):106~109
20 齐国辉,陈贵林,吕桂云等. 丛枝菌根真菌对重茬草莓产量和品质地影响. 果树学报,2001,18(6):341~344
21 张美庆. 略论VA菌根在我国的应用. 华北农学报,1998,13(1):106~111