The two species effectively team up to break down young rice plants for their nutrients, causing a plant disease known as rice seedling blight.
这两个物种有效地合作,来分解水稻的幼苗作为它们的营养来源,造成一种叫水稻立枯病的植物病害。
A plant disease caused by the ergot fungus.
由于麦角真菌导致的一种植物。
A plant disease, usually caused by fungi, that produces minute spots on leaves and stems.
一种植物病,通常由真菌引起,在植物的叶和茎上产生小斑点。
The masson pines of the forest area are oversized, easy to have the big area plant disease.
马尾松成片林面积过大,易产生大面积的病害。
Such as PAL, POD , SOD and PPO , which are strongly associated with the plant disease resistance.
例如苯丙氨酸解氨酶(PAL)、过氧化物酶(POD)、多酚氧化酶(PPO),这些酶和植物的抗病性是密切相关的。
More than 10 plant disease resistance genes have been cloned and sequenced in the past several years.
近年来,已有10多个植物抗病基因被克隆并定序。
Scab any plant disease that produces dry raised scab like lesions due to the formation of cork layers.
疮痂病:由于植物木栓层增生而形成干燥、隆起、痂样创伤的植物疾病。
In this paper, classification method of SVM for shape recognition of plant disease spot was discussed.
该文讨论了支持向量机分类方法应用于植物病斑形状识别。
A new set of standards for grading plant disease in the fields is offered based on practical experience.
并根据实践建立了一套新的田间单株病情分级标准。
Plant disease epidemiology is a dynamic science that forms an essential part of the study of plant pathology.
植物疾病流行病学是形成一个植物病理学的研究的必要的部分的一门动态的科学。
Natural causes include drought, flooding, unfavourable weather conditions, plant disease, and insect infestation.
天然原因包括干旱、洪水泛滥、天候异常、虫害和植物疾病等。
Streptomyces spp. , as ones of important biocontrol agents to control plant disease, are summarized in this paper.
本文对植物病害的重要生防因子之一链霉菌作了综述总结。
Using a survival model, a new model with some biological meaning for plant disease epidemic was derived in this paper.
本文利用统计分析中的生存模型导出一个新的植病流行模型,该模型具有一定的生物学意义和应用价值。
Phytotoxin, one of the most important factors of fungal disease which is the major plant disease, is paid much attention to.
植物真菌病害是植物的主要病害,毒素作为引发病害的重要因子之一而受到广泛的注意。
Most of known plant disease-resistance genes are featured with a nucleotide-binding site (NBS) and leucine-rich repeats (LRR).
许多抗病基因均具有核苷酸结合位点(NBS)和富含亮氨酸重复区(LRR)。
There are two types of mechanism of plant disease resistance, hypersensitive response (HR) and systemic acquired resistance (SAR).
植物中普遍存在的抗病机制有两种,即过敏反应(HR)和系统获得性抗性(SAR)。
Union Taiyuan's path actual makes the reasonable maintenance method by road surface each kind of plant disease and the use function.
结合太原市的道路实际以路面的各种病害及使用功能作出合理的养护方法。
Substances such as lignin, phytoalexin, active oxygen, salicylic acid are known to play important roles on the plant disease resistance.
木质素、植保素、活性氧、水杨酸等物质已被证明在植物抗病中起了重要作用。
Plant defense responses against pathogens, plant-pathogen interaction model and genetic basis of plant disease resistance were summarized.
就植物对病原的防御反应,植物-病原互作模式和植物抗病性的遗传基础进行了概述。
At first extracting features of chromaticity moments was done then classification method of SVM for recognition of plant disease was discussed.
首先利用色度矩提取植物病害叶片的特征向量,然后利用支持向量机分类方法进行病害的识别。
At first, extracting features of chromaticity moments was done, then classification method of SVM for recognition of plant disease was discussed.
首先利用色度矩提取植物病害叶片的特征向量,然后利用支持向量机分类方法进行病害的识别。
The comparison of different kernel functions for SVM shows that liner kernel function is most suitable for shape recognition of plant disease spot.
不同分类核函数的相互比较分析表明,线性核函数最适于植物病害的分类识别。
The principle, targeting genes, transformation methods and view of application prospect of plant disease resistance genetic engineering were summarized.
该文就植物抗病基因工程的原理、目的基因、转化方法等进行综述,并对植物抗病基因工程的应用前景做了展望。
Their ability to produce antifungal compounds that limit growth and activity of plant pathogenic fungi make them ideal candidates for plant disease control.
木霉菌能产生抑制植物病原真菌生长与活力的抗菌物质,是理想的植物病害生物防治菌。
Experts also argue that an increase in plant disease and the deterioration of the environment have been triggered, partly, by years of chemical fertilizer use.
专家还称,长期使用化肥是导致环境恶化以及农作物患病率增加的原因之一。
Experts also argue that an increase in plant disease and the deterioration of the environment have been triggered, partly, by years of chemical fertilizer use.
专家还称,长期使用化肥是导致环境恶化以及农作物患病率增加的原因之一。
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