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排序方式: 共有1637条查询结果,搜索用时 15 毫秒
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Simon Gibert Véronique Edel-Hermann Elodie Gautheron Nadine Gautheron Eric Bernaud Jean-Marie Sol Géry Capelle Rachel Galland Arnaud Bardon-Debats Claudine Lambert Christian Steinberg 《Plant pathology》2022,71(7):1550-1569
The pea root rot complex is a major concern for green pea production worldwide. This study aimed at characterizing its composition and dynamics throughout a cropping season in northern France. To this end, fungi and oomycetes were isolated from green pea plant roots with symptoms sampled at the flowering stage in 22 fields in 2017, and at the pea emergence, elongation and flowering stages in two fields in 2018. Out of 646 isolates collected, 317 were identified using molecular markers. Fusarium oxysporum, F. solani and F. redolens were highly predominant. Pathogenicity tests separated the isolates into four aggressiveness groups. F. solani isolates were the most aggressive. Phylogenetic analysis of their TEF1 sequences showed that they mainly belonged to the F. pisi lineage, and that F. oxysporum isolates were genetically close to isolates from the UK that did not belong to the forma specialis pisi. In addition, several Clonostachys rhizophaga isolates are reported for the first time to cause pea root rot. The oomycetes were rarely found and were represented by a few Pythium spp. isolates. Lastly, this study shows that the fungal and oomycete communities associated with pea root rot change during the cropping season. The level of dissimilarity of the root-rot-associated communities decreased throughout the cropping season towards a more similar composition at the flowering stage, dominated by F. solani, F. oxysporum and F. redolens. The proportion of nonpathogenic to weakly pathogenic isolates decreased progressively during the growing season in favour of moderately to highly pathogenic isolates. 相似文献
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为了探究复配修饰后,可变电荷类型的红壤与恒电荷土壤对苯酚的吸附差异,以红壤作为供试土样,在两性表面活性剂BS-12(十二烷基二甲基甜菜碱)修饰的基础上,以阳离子型表面活性剂DTAB(十二烷基三甲基溴化铵)复配修饰制备两性-阳离子复配修饰红壤,采用批处理法研究在单一苯酚及Cd2+复合条件下供试土样对苯酚的吸附效果,并分析不同修饰比例、温度、离子强度和pH的影响。结果表明,DTAB复配修饰增强了BS-12两性修饰红壤对苯酚的吸附能力,单一苯酚表现出在总修饰比例小于150%CEC时吸附量随着修饰比例的增加而递增;各修饰土对苯酚的吸附具有增温负效应;苯酚吸附量随着pH的升高而降低;随着离子强度的增大,苯酚单一处理时供试土样对苯酚吸附量减少,但苯酚和Cd2+复合处理时,则呈现先降低后升高的趋势。Henry模型能较好地拟合各修饰红壤对苯酚吸附的等温吸附数据,吸附以分配机制为主;供试土样对苯酚的吸附属于自发的物理吸附过程。复配修饰红壤的苯酚吸附量低于恒电荷土壤,其黏土矿物成分决定的低CEC是主要影响因素。 相似文献
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Many rice-growing areas are affected by high concentrations of arsenic(As). Rice varieties that prevent As uptake and/or accumulation can mitigate As threats to human health. Genomic selection is known to facilitate rapid selection of superior genotypes for complex traits. We explored the predictive ability(PA) of genomic prediction with single-environment models, accounting or not for trait-specific markers, multi-environment models, and multi-trait and multi-environment models, using the genotypic(1600 K SNPs) and phenotypic(grain As content, grain yield and days to flowering) data of the Bengal and Assam Aus Panel. Under the base-line single-environment model, PA of up to 0.707 and 0.654 was obtained for grain yield and grain As content, respectively; the three prediction methods(Bayesian Lasso, genomic best linear unbiased prediction and reproducing kernel Hilbert spaces) were considered to perform similarly, and marker selection based on linkage disequilibrium allowed to reduce the number of SNP to 17 K, without negative effect on PA of genomic predictions. Single-environment models giving distinct weight to trait-specific markers in the genomic relationship matrix outperformed the base-line models up to 32%. Multi-environment models, accounting for genotype × environment interactions, and multi-trait and multi-environment models outperformed the base-line models by up to 47% and 61%, respectively. Among the multi-trait and multi-environment models, the Bayesian multi-output regressor stacking function obtained the highest predictive ability(0.831 for grain As) with much higher efficiency for computing time. These findings pave the way for breeding for As-tolerance in the progenies of biparental crosses involving members of the Bengal and Assam Aus Panel. Genomic prediction can also be applied to breeding for other complex traits under multiple environments. 相似文献
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红黏土边坡香根草根土复合体的强度特性 总被引:2,自引:0,他引:2
[目的]针对植物护坡效应,探究香根草根系的力学特性及其根土复合体强度特征影响因素,为植物护坡工程设计提供参考依据。[方法]利用模型箱模拟红黏土填筑边坡进行香根草种植,利用根系拉拔试验和原状根土复合体直剪试验等室内试验,研究香根草的力学性能及根土复合体强度特征的影响因素。通过对试验结果进行拟合分析及Spearman相关性分析,分别得出了香根草根系直径与抗拉性能的关系及不同指标对其根土复合体抗剪强度的影响效果。[结果]试验香根草根系平均抗拉力为19.05 N,平均抗拉强度为20.12 MPa;香根草根系的抗拉力、抗拉强度与根系直径呈显著的幂函数关系;土中的根重密度RWD随着深度增加而降低。Spearman相关分析结果显示,根重密度RWD与根土复合体的黏聚力c呈正向强相关关系(R=0.882)。[结论]随着香根草根系直径增大,其抗拉力增大,抗拉强度降低;根重密度RWD的提升能显著提高香根草-红黏土根土复合体的黏聚力c,但对于摩擦角φ提升效果不明显。 相似文献
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《国际水土保持研究(英文)》2021,9(4):605-619
Headwater streams play a major role for provision of ecosystem services, e.g. drinking water. We investigated a high-altitude headwater catchment of the Kharaa River (including 41 1st-order rivers) to understand the impact of land cover (especially forest cover), environment and human usage on runoff, chemical water quality and macroinvertebrate fauna in a river basin under discontinuous permafrost conditions in an arid, sparsely populated region of Mongolia. To verify our hypotheses that different landuses and environmental impacts in permafrost headwaters influence water quality, we investigated 105 sampling sites, 37 of them at intermittent stream sections without water flow. Discharge was positively impacted by land cover types steppe, grassland and forest and negatively by shrubland, forest burnt by wild fires (indicating a reduction of permafrost) and slope. Water quality was affected by altitude, longitude and latitude, shrub growth and water temperature. Shannon diversity of macroinvertebrates was driven by water temperature, iron content of the water, flow velocity, and subbasin size (adjusted R2 = 0.54). Sample plots clustered in three groups that differed in water chemistry, macroinvertebrate diversity, species composition and bio-indicators. Our study confirms that steppes and grasslands have a higher contribution to runoff than forests, forest cover has a positive impact on water quality, and diversity of macroinvertebrates is higher in sites with less nutrients and pollutants. The excellent ecological status of the upper reaches of the Kharaa is severely threatened by forest fires and human-induced climate change and urgently needs to be conserved. 相似文献
7.
Integrated Evaluation and the Physiological and Biochemical Responses of Semi-Wild Cotton under Complex Salt-Alkali Stress 总被引:2,自引:2,他引:0
Xu Yanchao Wei Yangyang Li Zhenqing Cai Xiaoyan Wang Yuhong Wang Xingxing Zhang Zhenmei Wang Kunbo Liu Fang Zhou Zhongli 《棉花学报》2018,30(3):231-241
[Objective] The genetic diversity of semi-wild cotton was abundant, so more new elite resistant genes could be found and applied to improve the resistance of cotton. The aim of this study was to primarily study on the regulation of response to salt-alkali stress, explore the method of integrated evaluation and characterize the resistance of semi-wild cotton. [Method] Four semi-wild and two cultivated Gossypium hirsutum accessions were evaluated for phonotypical, physiological and biochemical traits under alkali-salt versus normal conditions in hydroponic solutions. The alkali-salt tolerance was determined based on principal component analysis, cluster analysis, correlation analysis, grey rational analysis and analysis of variance. [Result] On the basis of the overall results, the alkali-salt stress tolerance of the six accessions was ranked as: Marie-galante85 > Latifolium32 > CRI16 > CRI12 > Latifolium40 > Latifolium130. Roots were found to be the most important responsive systems to complex alkali-salt stress. At seedling growth stage, the active scavenging system played a crucial role in response to alkali-salt stress. In addition, the salt tolerant and salt sensitive accessions showed different response tends towards leaf peroxidase, root ascorbate peroxidase and root catalase within 48 h, suggesting the accessions have different levels of response to salt stress. [Conclusion]Our study identified the most alkali-salt tolerant accessions and provided basic concept of complex alkali-salt tolerance mechanism within cotton accessions. And, our study provided a simple and rapid, highly accurate and precise method for evaluating salt resistance of cotton, and proved that the balance of ROS system play an important role in response to salt-alkali stress. Hence, mining of salt tolerant genes from these accessions may facilitate the development of novel salt tolerant variety. 相似文献
8.
WSSV envelope protein VP51B links structural protein complexes and may mediate virus infection 下载免费PDF全文
White spot syndrome virus (WSSV), an enveloped double‐stranded DNA virus, is the causative agent of a disease that has led to severe mortalities of cultured shrimps in Taiwan and many other countries. In the previous study, Penaeus monodon chitin‐binding protein (CBP) and glucose transporter 1 (Glut1), two cell membrane proteins, were found to at least interact with other 10 WSSV envelope proteins including VP51B. These envelope proteins might form a protein complex. According to the known information, VP51B was used to identify its role in the protein complex. Western blotting of the intact viral particles and fractionation of the viral components confirmed that VP51B is one of WSSV envelope proteins. In this study, the protein–protein interaction between VP51B and other WSSV envelope proteins was identified by far‐western blot experiment and VP51B was found to interact with VP24, VP31, VP32, VP39B and VP41A. Furthermore, the in vivo neutralization experiment using recombinant VP51B plus with VP39B showed the best inhibition. These data indicate that VP51B participates in the WSSV protein complex and plays an important role in WSSV infection. 相似文献
9.
Seyedeh Masoumeh Fotoukkiaii Zoë Tan Wenxin Xue Nicky Wybouw Thomas Van Leeuwen 《Pest management science》2020,76(3):1154-1163
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