The Effects of Seedling Strengthen Agent Inoculated by Microbe to the absorbed NPK of Rice Seeding in Low Phosphorus Soil

Abstract

Abstract: To widely use seedling strengthen agent inoculated by microbe in agricultural production, this paper studied the effects of seedling strengthen agent inoculated by microbe to the absorbed NPK of rice seeding in low phosphorus soil (lime chernozem) through culture experiment in seed bed. The results showed that using the seedling strengthen agent inoculated by 5406 actinomycetes and P77 phosphate dissolving bacteria significantly improved the NPK contents and absorption of rice seeding shoot , and also increased the NK contents and absorption of the seedling root, but decreased the contents and absorption of the seedling root. The study showed that P4 treatment had the best effects (inoculated by P77 with the concentration of 5×107cfu/g), and the second one was P2 treatment (inoculated by 5406 actinomycetes with the concentration of 5×107cfu/g). So P77 inoculated in the seedling strengthen agent had better effects than 5406 actinomycetes, and the concentration of 5×107cfu/g was more effective.

CLC Number:

S565.406

Zhang Yanli, Gu Siyu, Zeng Xiangshu, Yan Yan, Wang Weipeng. The Effects of Seedling Strengthen Agent Inoculated by Microbe to the absorbed NPK of Rice Seeding in Low Phosphorus Soil[J]. Chinese Agricultural Science Bulletin, 2007, 23(7): 370-370.

References

[1] Meng K, Kirkby E A. Principles of Plant Nutrition, 3rd Ed. International Potash Institute, Bern, Switzerland, 1982,389-409.
[2] 童学军,严小龙,卢永根,等.广东大豆地方种质磷效率特性研究.Ⅰ.大豆基因型磷效率特性差异及其与土壤有效磷含量的关系.土壤学报,1999,36(3):404-411.
[3] 吴平,印莉萍,张立平,等.植物营养分子生理学.北京:科学出版社,2001:1-105.
[4] 李振声,朱兆良,章申,等.挖掘生物高效利用土壤养分潜力保持土壤环境良性循环.北京:中国农业大学出版社,2004:33-34.
[5] 全为民,严力蛟.农业面源污染对水体富营养化的影响及其防治措施.生态学报,2002,22(3):291-299.
[6] 王光华,周克琴,金剑,等.不同碳源对三种溶磷真菌溶解磷矿粉能力的影响.生态学杂志,2004,23(2):32-36.
[7] 周克琴,王光华,金剑,等.土壤微生物对提高植物磷素营养的作用.农业系统科学与综合研究,2003,19(3):232-236.
[8] 峥嵘.5406放线菌对小麦幼苗的影响.内蒙古农业大学学报,2006,27(2):150-152.
[9] 范丙全,金继运,葛诚.溶磷真菌促进磷素吸收和作物生长的作用研究.植物营养与肥料学报,2004,10(6):620-624.
[10] Chabot R, Antoun H, Kloepper J W, et al. Root colonization of maize and lettuce by bioluminescent rhizobium leguminosarum biovar phaseoli. Appl. Environ. Microbiol .,1996,62(8):2767-2772.
[11] Vessileva M, Vassilev N, Azcon R, et al. Rock phosphate solubilization by Aspergillus niger on olive cake-based medium and its further application in a soil plant system. World J. Microbiol. Biotechnol.,1998,14(2):281-284.
[12] 范丙全,金继运,葛诚.溶磷草酸青霉菌筛选及其溶磷效果的初步研究.中国农业科学,2002,35(5):525-530.
[13] 范丙全,金继运,葛诚.32P示踪法研究溶磷真菌对磷肥转化固定和有效性的影响.应用生态学报,2004,15(11):2142-2146.
[14] 鲁如坤.土壤农业化学分析方法.北京:中国农业科技出版社,2000:146-188.
[15] 陆景陵.植物营养学(上册)(第2版).北京:中国农业大学出版社,2003:23-60.
[16] 陈文荣,刘鹏,黄朝表,等.铝对荞麦铝和其他营养元素运输的影响.水土保持学报,2006,20(3)173-176.
[17] Randall P J. Genotypic differences in phosphorus uptake Genetic manipulation of crop plants for enhance integrated nutrient management in cropping systems 1. phosphorus: pcoceeding of an FAO-ICRIST Expert Concultancy workshop. 1994,31:15-18.
[18] Peter R. Interaction between aluminum toxicity and calcium uptake at the root apex in near-isogenies lines of wheat (Triticum aestivanL.) differing in aluminum tolerance. Plant Physiol., 1993, 102: 975-982.
[19] 中华人民共和国农业部教育司主编.环境胁迫与植物根际营养.北京:中国农业出版社,1997,72-74.