1) aluminum forms in rhizosphere soil
根际铝形态
2) Rhizosphere ecosystem
根际生态
3) Rhizosphere dynamics
根际动态
4) rhizosphere microecology
根际微生态
1.
In this paper,the development of rhizosphere microecology in heavy metal hyperaccumulators and their application in phytoremediation during recent years is reviewed,including the distribution and accum.
阐述近年来国内外在超富集植物吸收重金属的根际微生态效应这一领域的研究成果,介绍了根际微生态效应在植物修复中的应用:重金属在根际环境的分布与累积、地球化学赋存形态、生物有效性以及影响重金属根际行为和生物有效性的主要因素(pH、根系分泌物、微生物)等。
2.
In order to reveal mechanism of AM fungi on rhizosphere microecology of R.
本论文通过开展黄土高原生态退化区不同树龄刺槐人工林及次生林根际土壤微生物群落多样性研究、AM真菌对微生物群落影响研究以及AM真菌对刺槐的接种效应研究,旨在揭示AM真菌对刺槐根际微生态的作用机制,为黄土高原退化生态系统的恢复重建和西部地区退耕还林工程的实施提供科学依据。
5) aluminum form
铝形态
1.
Effects of phosphorus on aluminum forms and soil enzymatic activities of buckwheat rhizosphere under aluminum stress
磷对铝胁迫下荞麦根际土壤铝形态和酶活性的影响
2.
The results showed aluminum form in the mesoscale soil of this area is affected by such natrual elements as pH and Soil parent material featuring significant structural space.
2软件的空间分析功能及地统计学方法对果园土壤中铝形态空间变异特性进行分析:包括交换性铝、吸附态羟基铝、有机络合态铝。
3.
Transformation rule of aluminum form of Al-based coagulants in coagulation and sedimentation process.;
研究了模拟配水中硫酸铝和氯化铝2种传统铝凝聚剂和2种聚合氯化铝(PAC)絮凝剂在混凝过程中的形态转化规律以及原水浊度和溶解性有机碳(DOC)对残余铝形态分布的影响。
6) aluminium species
铝形态
1.
The characteristics of the reaction and the distribution and transformation of the aluminium species were also studied.
以CaO为碱化剂采用一次加碱法合成了高浓度聚合氯化铝 (PAC) ,研究了其反应特性及产品的铝形态分布与转化规律 。
补充资料:双(2-丙醇酸根合)(异辛酸根合)铝
CAS:99790-95-1
分子式:C14H31AlO3
中文名称:双(2-丙醇酸根合)(异辛酸根合)铝
英文名称:(isooctanolato)bis(2-propanolato)-Aluminum
(isooctanolato)bis(2-propanolato)-aluminum
Aluminum,(isooctanolato)bis(2-propanolato)-
分子式:C14H31AlO3
中文名称:双(2-丙醇酸根合)(异辛酸根合)铝
英文名称:(isooctanolato)bis(2-propanolato)-Aluminum
(isooctanolato)bis(2-propanolato)-aluminum
Aluminum,(isooctanolato)bis(2-propanolato)-
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条