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茶炭疽病的识别与防治 总被引:1,自引:0,他引:1
茶炭疽病是近年来茶树上发生为害较重的一种病害。本文介绍了茶树发生茶炭疽病后各发病阶段的症状特征,阐述了该病害发生和气候条件、茶树品种及栽培管理等的关系,提出了茶炭疽病的防控措施,为生产上预防和控制该病害提供依据。 相似文献
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茶树炭疽病近年在浙南、浙西南发生加重,产量损失达5—8%,严重达10%以上,为有效控制炭疽病发生与危害,2003—2005年开展防治茶炭疽病药效试验,现将试验结果初报如下: 相似文献
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一、茶树病害的现状茶树病害,据报导全世界有380余种,我国约有100余种,常见的病害约有50余种,其中发生较多较普遍的约30余种。如危害叶片的病害有:茶云纹叶枯病、茶芽枯病、茶轮斑病、茶心枯病、茶炭疽病、茶赤叶斑病、 相似文献
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为获得对茶炭疽病有生物防治效果的拮抗木霉菌,本文采用梯度稀释法从茶树根际土壤中分离获得23株木霉菌,并通过平板对峙法和抑菌圈法从中筛选出1株强拮抗茶炭疽病菌的木霉菌株LS17110205。该菌株对茶炭疽病菌抑菌率达76.96%,并能在茶炭疽病菌菌落上产生大量白色菌丝及绿色分生孢子,使茶炭疽病菌菌落萎缩,颜色变暗;其发酵液也能有效抑制茶炭疽病菌菌丝生长,抑制率达70.08%。扫描电镜观察发现,菌株LS17110205发酵液能使茶炭疽菌菌丝表面皱缩。基于形态学特征结合分子系统发育树分析,将菌株LS17110205鉴定为Trichoderma asperelloides。该研究结果为茶炭疽病的生物防治提供一定的理论基础。 相似文献
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为了寻求适合高山茶园的间作模式,探究不同间作作物对茶园主要叶部病害发生的影响。本文通过田间试验,明确川西北茶园主要叶部病害种类;通过对茶-黄豆、茶-玉米、茶-李树、茶-厚朴间作茶园和单作茶园的病害发生情况进行调查研究,比较分析不同模式茶园叶部病害发生的差异性。结果表明,川西北高山茶园主要叶部病害为茶饼病、茶炭疽病、茶云纹叶枯病、茶圆赤星病和茶赤叶斑病;4种间作作物中黄豆和玉米是较为理想的间作作物。茶-黄豆间作的茶园茶饼病和茶炭疽病发病率最低,两种病害发病率分别比单作茶园降低了85.12%和74.34%;茶-玉米间作茶园炭疽病发病率比单作茶园降低了49.76%。茶-厚朴间作茶园茶饼病的平均发病率为27.82%,是单作茶园的11.50倍。同时茶-厚朴间作茶园9月份炭疽病的发病率高达51.67%是单作茶园发病率的2.73倍。因此,黄豆和玉米是替代厚朴等林木类较为理想的高山茶园间作作物,间作黄豆可显著降低茶园病害的发生,减轻病害的损失。 相似文献
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从福建地区不同品种茶树上分离获得ZHG、WSX、WHG、FTG、ZTG、AHD、WRG、SLH等8株能侵染茶树的病原菌,采用形态学和rDNA-ITS序列分析相结合的方法对其进行鉴定。结果发现,SLH菌株为胶孢炭疽菌Colletotrichum gloeosporioides,其余7个菌株均为Colletotrichum fructicola。C. fructicola为能侵染茶树的新记录种炭疽菌,将其ITS序列与寄主分别为油茶、茉莉和番石榴等木本植物的9株炭疽菌的ITS序列进行聚类分析,结果显示,来自茶树的7个C. fructicola菌株种内存在碱基突变或缺失,且与寄主为茶树、油茶、茉莉等植物的胶孢炭疽菌C. gloeosporioides遗传距离较近。 相似文献
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An indigenous fungal pathogen of the native leguminous weed, northern jointvetch (Aeschynomene virginica [L.] B.S.P.) was found to cause an anthracnose disease at endemic levels annually on its host in Arkansas rice and soybean fields without apparent impact on competitive ability or dispersal of the weed. The pathogen was isolated in pure culture and identified as a host-specific strain of Colletotrichum gloeosporioides, an intensively studied ‘group species’ which causes many anthracnose diseases and consists of species and strains representing wide latitudes of hosts specificity and virulence on both economic crops and wild plants in the tropical and temperate regions of the world. An understanding of anthracnose disease aetiology gained from the literature and confirmed by empirical studies with the weed and fungus revealed that the pathogen was specific and potentially devastating to its weed host, but was constrained in natural situations by poor capacity for dissemination of inoculum. Its spores, although produced in abundance, develop late, are sticky and dispersed mainly by splashing rain or insects, mechanisms that are suppressed on annual weed plants interspersed with annual crop plants. For the fungus to be effective as a biological control agent (i.e. as a mycoherbicide), complete coverage of a field with inoculum at appropriate times and levels to compensate for the pathogen's poor capacity for dissemination would be required. A multidisciplinary team of plant pathologists, weed scientists, veterinary scientists and fermentation scientists investigated the practical potential of the mycoherbicide concept with this host-pathogen combination and found it to be biologically feasible, registerable and commercially practical. The fungus is marketed as living dry spores for use on a comparatively small area weed problem and in a crop-management programme that relies heavily on chemical pesticides. Extension of this concept to control other weeds or other pests seems possible and practical. 相似文献
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茶树炭疽病抗性的QTL分析 总被引:1,自引:0,他引:1
以茶树SSR遗传连锁图谱为基础,选取龙井43为母本,白毫早为父本的170株F1遗传群体为试验材料,于2014年对该群体分别进行了茶树炭疽病抗性性状的田间观测和室内侵染试验,并采用复合区间作图法对该性状进行QTL定位与分析。结果显示:从F1群体病叶上分离纯化出一种茶树炭疽病病菌HZ-1,经NCBI BLAST比对,其ITS基因序列与炭疽菌(Colletotrichum sp.)的亲缘关系最近,序列相似度为99%。对F1群体的炭疽病抗性表型分析发现,田间环境下的感病单株的占比(41%)高于室内环境(24%)。QTL分析显示,在6个不同的遗传连锁群(Linkage group,LG)上共检测到8个QTLs,单个QTL的LOD阈值变幅为2.53~6.80,单个QTL的表型变异贡献率的变幅为5.6%~13.8%。LG10存在1个控制茶树炭疽病抗性性状的主效QTL,LOD值6.80,表型变异贡献率13.8%。 相似文献
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丽水市茶饼病发生及影响因子分析 总被引:2,自引:0,他引:2
茶饼病第1次在丽水市茶区发生于2010年秋,病原菌形态学观察和接种试验证实该病害的病原菌。病害抗病性观察显示,不同茶树品种对该病害抗性明显不同,其中迎霜品种相对最感病;每年4~6月和8~10月期间雨量与病害的发生密切相关;在海拔260~520 m范围内,因不同海拔高度茶园的雨日、雨量、相对湿度不同,病害发生情况各异;60%遮荫的茶园极有利于茶饼病发生。生长季节结束后,科学修剪及处理修剪枝叶、冬季清园封园等农业措施,对病害控制效果达到28.86%~49.62%。 相似文献
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