7株根瘤菌菌株与热研2号柱花草共生最适磷浓度研究

采用水培的方法,设3个磷水平,7个菌株,通过对株高、茎叶鲜重、茎叶干重、固氮酶活性、茎叶氮含量、茎叶磷含量的测定及综合分析,确定使热研2号柱花草接种不同根瘤菌菌株达到最佳促生性能的磷浓度。结果表明:7个菌株在中磷时鲜重和含氮量最大,低磷不利于鲜重和含氮量的增加;经主因子综合分析,菌株YM11-1、RJS9-2、PN13-3在高磷时对热研2号柱花草有最好的固氮促生效果,菌株LZ3-2、BS1-1、PN13-3在中等磷条件下有最好的固氮促生效果,菌株FS3-1-1在高磷和中磷都有最好的固氮促生效果。     

3％高效氟氯氰菊酯与甲胺基阿维菌素苯甲酸盐对小菜蛾联合毒力测定

[目的]研究3％高效氟氯氰菊酯·甲维盐乳油对小菜蛾（Plutella xylostella）的防治效果。[方法]将3％高效氟氯氰菊酯和甲胺基阿维菌素苯甲酸盐按照不同比例混配,研究其对小菜蛾的毒力。[结果]3％高效氟氯氰菊酯·甲维盐乳油以2．0：1．0的比例混配,共毒系数分别为124．78,表现为增效,且其对小菜蛾幼虫的LC50值为17．21mg／L,对小菜蛾幼虫具有较强的毒杀作用。[结论]2．0：1．0的3％高效氦氯氰菊酯·甲维盐乳油对小菜蛾具有较好的防治效果。     

Improving potassium acquisition and utilisation by crop plants

To avoid loss of yield, crops must maintain tissue potassium (K) concentrations above 5–40 mg K (g DM)^–1. The supply of K from the soil is often insufficient to meet this demand and, in many agricultural systems, K fertilisers are applied to crops. However, K fertilisers are expensive. There is interest, therefore, in reducing applications of K fertilisers either by improving agronomy or developing crop genotypes that use K fertilisers more efficiently. Agronomic K fertiliser use efficiency is determined by the ability of roots to acquire K from the soil, which is referred to as K uptake efficiency (KUpE), and the ability of a plant to utilise the K acquired to produce yield, which is referred to as K utilisation efficiency (KUtE). There is considerable genetic variation between and within crop species in both KUpE and KUtE, and chromosomal loci affecting these characteristics have been identified in Arabidopsis thaliana and several crop species. Plant traits that increase KUpE include (1) exudation of organic compounds that release more non‐exchangeable soil K, (2) high root K uptake capacity, (3) early root vigour, high root‐to‐shoot ratios, and high root length densities, (4) proliferation of roots throughout the soil volume, and (5) high transpiration rates. Plant traits that increase KUtE include (1) effective K redistribution within the plant, (2) tolerance of low tissue K concentrations, and, at low tissue K concentrations, (3) maintenance of optimal K concentrations in metabolically active cellular compartments, (4) replacement of K in its non‐specific roles, (5) redistribution of K from senescent to younger tissues, (6) maintenance of water relations, photosynthesis and canopy cover, and (7) a high harvest index. The development of crop genotypes with these traits will enable K fertiliser applications to be reduced.     

Insect Pests and Mites

Abstract

Weeds are major components of agro-ecosystems and they affect the biology of pests and beneficial insects in several ways; provision of flowers, presence of neutral insects, modification of crop microclimate, production of chemical stimulus, alteration of colonisation background, etc. The more relevant beneficial crop–weed–insect interactions are discussed. The role of weeds in regulating pest populations is illustrated by studies on bean (Phaseolus vulgaris L.) cropping systems, in which chemical interactions between Empoasca kraemeri Ross &; Moore and two grass weeds were identified. It is proposed to continue and develop this kind of research in order to incorporate weeds into pest control strategies.     

Cloning and characterization of two glutathione S-transferases from pyrethroid-resistant Culex pipiens

BACKGROUND: The Marin strain of Culex pipiens Say is a pyrethroid‐resistant population that was collected in Marin County, California, in 2001 and subsequently maintained in the laboratory under regular permethrin exposure. RESULTS: In this study, two cDNAs, CpGSTd1 and CpGSTd2, encoding glutathione S‐transferase (GST) were cloned from Cx. pipiens Marin. Phylogenetic analysis of the deduced amino acid sequences, CpGSTD1 and CpGSTD2, of these genes indicated that they belong to the Delta class of insect GSTs. The nucleotide and deduced amino acid sequences of CpGSTd1 and CpGSTd2 were 59 and 48% identical respectively. CpGSTD1 and CpGSTD2 were expressed in Escherichia coli and purified by affinity chromatography. The recombinant GSTs exhibited unique selectivity towards the general GST substrates 1‐chloro‐2,4‐dinitrobenzene (CDNB) and 1,2‐dichloro‐4‐nitrobenzene (DCNB), and also differed in their sensitivity to known inhibitors of GSTs. CpGSTD1 exhibited peroxidase activity with cumene hydroperoxide, while CpGSTD2 appeared to lack this activity. CpGSTD1 was able to metabolize 1,1,1‐trichloro‐2,2‐bis(4‐chlorophenyl)ethane (DDT), while DDT metabolism by CpGSTD2 was not detectable. CpGSTD1 and CpGSTD2 showed no detectable metabolism of permethrin. Gene expression of CpGSTd1 and CpGSTd2 in Marin mosquitoes was elevated about twofold in comparison with that found in a pyrethroid‐sensitive mosquito strain. CONCLUSION: The results indicate that CpGSTD1 and CpGSTD2 have unique biochemical characteristics, but they do not appear to play major roles in permethrin resistance in Marin mosquitoes. Copyright © 2012 Society of Chemical Industry     

磷营养对苗期水稻地上部累积镉的影响

采用人工控制光温条件的营养液培养方法,研究了营养液中磷营养对苗期水稻吸收不同浓度镉的影响,结果表明：（１）随着生长介质中磷营养浓度（磷的处理浓度为５,１０,１５ｍｇ／Ｌ）的增加,水稻植株的生物量和株高无明显变化;在各个磷处理水平上,随着镉浓度的增加,水稻地上部镉含量呈增加趋势;（２）随着营养介质中磷浓度的增大,Ｃｄ０．１,Ｃｄ０．５,Ｃｄ１．０处理的水稻地上部镉含量均呈增加趋势,尤其是高镉浓度处理     

Modulation of porcine biotransformation enzymes by anthelmintic therapy with fenbendazole and flubendazole

Fenbendazole (FEN) and flubendazole (FLU) are benzimidazole anthelmintics often used in pig management for the control of nematodoses. The in vivo study presented here was designed to test the influence of FLU and FEN on cytochrome P4501A and other cytochrome P450 (CYP) isoforms, UDP-glucuronosyl transferase and several carbonyl reducing enzymes. The results indicated that FEN (in a single therapeutic dose as well as in repeated therapeutic doses) caused significant induction of pig CYP1A, while FLU did not show an inductive effect towards this isoform. Some of the other hepatic and intestinal biotransformation enzymes that were assayed were moderately influenced by FEN or FLU. Strong CYP1A induction following FEN therapy in pigs may negatively affect the efficacy and pharmacokinetics of FEN itself or other simultaneously or consecutively administered drugs. From the perspective of biotransformation enzyme modulation, FLU would appear to be a more convenient anthelmintic therapy of pigs than FEN.