期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

节酸磷肥在黄棕壤性水稻土上的供磷潜力─—L值 被引量:2

AGRONOMIC POTENTIAL OF PARTIALLY ACIDULATED ROCK PHOSPHATES ON A YELLOW-BROWNISH PADDY SOIL
下载PDF
导出
摘要 生长室内以剪股颖(Agrostistenuis)为指示植物,研究了昆阳、晋宁两磷矿中品位矿样制取的节酸磷肥(60%酸化度)在黄棕壤性水稻土上的供磷潜力。节酸磷肥和重过磷酸钙(TSP)处理,植株地上部3次收获的生物量没有显著差异。但植株吸磷至和L值各处理间存在显著差异。以这两个参数评价各肥料的供磷潜力,TSP供磷能力最强,节酸磷肥其次,磷矿粉较差,但明显优于对照(未施磷)处理。两种矿样之间没有显著差异。 The agronomic potential of two partially acidulated rock phosphates(PARP),SP60Kand SP60J,which were manufactured respectively from Kunyang rock phosphate(RPK)andJinning rock pkospbate(RPJ)at 60% acidulation degree,was evaluated in growth chamberusing isotopic technique with Agrostis tenuis as test plant.While the plant biomass of theabove ground part did not differ much among various treatments,the amount of phosphorusaccumulated by plants and the L value of soil had significant difference among treatments.These two parameters indicated the same sequence for the two PARP fertilizers and the twoRP materials in term of relative agronomic potential as compared to TSP are:SP60K 67%,SP60J 66%,RPK 23%,and RPJ 19%.The relative agronomic potential of the two PAPRwas almost the same as their water soluble phosphorus percentage in the fertilizer material.It suggested from the results that the unreacted phosphate rock in the PARP materials hadnot contributed to plant utilization under the experiment conditions.
作者 熊礼明 时正元
机构地区 中国科学院南京土壤研究所
出处 《核农学报》 CAS CSCD 1994年第2期87-91,共5页 Journal of Nuclear Agricultural Sciences
关键词 节酸磷肥 供磷潜力 水稻土 Partially acidulated rock phosphate,agronomic potential,L value
分类号 S143.22 [农业科学—肥料学]
  • 相关文献

同被引文献69

  • 1王光火.高固磷土壤中的有效磷库似不宜用E值或L值评估[J].核农学报,1996,10(2):115-119. 被引量:1
  • 2刘可星,郑超,廖宗文.磷资源危机与磷的高效利用技术[J].化肥工业,2006,33(3):21-23. 被引量:27
  • 3Manahan, Stanley E. Environmental chemistry and the environmental biochemistry[C]//Environmental chemistry, CRC Press LLC, 2000. 17 -24.
  • 4Tiller K G, Honeysett J L, Vries M P C. Soil zinc and its uptake by plants. Ⅰ. Isotopic exchange equilibria and the application of tracer techniques[J]. Australian Journal of Soil Research, 1972, 10: 151-164.
  • 5Fardeau J, Le C. Phosphore assimilable dessols:Sa repre'sentation par un mode'le fonctionnel a'plusiers compartiments[J]. Agronomie, 1993, 13:317-331.
  • 6Sinai S, Dubois A, Frossard E. Soil isotopically exchangeable zinc:A comparison betweeen E and L values[J]. Plant and Soil, 2004, 261 : 17-28.
  • 7amon R, Bertrand I, Mclaughlin M. Use and abuse of isotopic exchange data in soil chemistry[J]. A us t J Soil Res, 2002, 40:1371-1381.
  • 8Oliver I, Ma Y B, Lombi E, et al. Stable isotope techniques for assessing labile Cu in soils : development of an L-value procedure, its application, and reconciliation with E values[J]. Environ Sci Technol, 2006, 40: 3342-3348.
  • 9nternational Atomic Energy Agency (IAEA). Use of isotope and radiation methods in soil and water management and crop nutrition[J]. Training course series, 2001, 14:1-6.
  • 10Ahnstrom Z A S, Parker D R. Cadmium reactivity in metaleontaminated soils using a coupled stable isotope dilutionsequential extraction procedure[J]. Environ Sci Technol, 2001, 35 : 121-126.

引证文献2

二级引证文献13

核农学报
1994年 第2期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部