Jaaffar Ahmad Kamil Mohd, Paulitz Timothy C, Schroeder Kurtis L, Thomashow Linda S, Weller David M
First and third authors: Department of Plant Pathology, Washington State University, Pullman, WA 99164-6430; and second, fourth, and fifth authors: U.S. Department of Agriculture-Agricultural Research Service, Wheat Health, Genetics and Quality Research Unit, Pullman, WA 99164-6430.
Phytopathology. 2016 May;106(5):459-73. doi: 10.1094/PHYTO-09-15-0208-R. Epub 2016 Mar 21.
Rhizoctonia root rot and bare patch, caused by Rhizoctonia solani anastomosis group (AG)-8 and R. oryzae, are chronic and important yield-limiting diseases of wheat and barley in the Inland Pacific Northwest (PNW) of the United States. Major gaps remain in our understanding of the epidemiology of these diseases, in part because multiple Rhizoctonia AGs and species can be isolated from the same cereal roots from the field, contributing to the challenge of identifying the causal agents correctly. In this study, a collection totaling 498 isolates of Rhizoctonia was assembled from surveys conducted from 2000 to 2009, 2010, and 2011 over a wide range of cereal production fields throughout Washington State in the PNW. To determine the identity of the isolates, PCR with AG- or species-specific primers and/or DNA sequence analysis of the internal transcribed spacers was performed. R. solani AG-2-1, AG-8, AG-10, AG-3, AG-4, and AG-11 comprised 157 (32%), 70 (14%), 21 (4%), 20 (4%), 1 (0.2%), and 1 (0.2%), respectively, of the total isolates. AG-I-like binucleate Rhizoctonia sp. comprised 44 (9%) of the total; and 53 (11%), 80 (16%), and 51 (10%) were identified as R. oryzae genotypes I, II, and III, respectively. Isolates of AG-2-1, the dominant Rhizoctonia, occurred in all six agronomic zones defined by annual precipitation and temperature within the region sampled. Isolates of AG-8 also were cosmopolitan in their distribution but the frequency of isolation varied among years, and they were most abundant in zones of low and moderate precipitation. R. oryzae was cosmopolitan, and collectively the three genotypes comprised 37% of the isolates. Only isolates of R. solani AG-8 and R. oryzae genotypes II and III (but not genotype I) caused symptoms typically associated with Rhizoctonia root rot and bare patch of wheat. Isolates of AG-2-1 caused only mild root rot and AG-I-like binucleate isolates and members of groups AG-3, AG-4, and AG-11 showed only slight or no discoloration of the roots. However, all isolates of AG-2-1 caused severe damping-off of canola, resulting in 100% mortality. Isolates of Rhizoctonia AG-8, AG-2-1, AG-10, AG-I-like binucleate Rhizoctonia, and R. oryzae genotypes I, II, and III could be distinguished by colony morphology on potato dextrose agar, by PCR with specific primers, or by the type and severity of disease on wheat and canola seedlings, and results of these approaches correlated completely. Based on cultured isolates, we also identified the geographic distribution of all of these Rhizoctonia isolates in cereal-based production systems throughout Washington State.
由立枯丝核菌融合群(AG)-8和稻根腐丝核菌引起的立枯丝核菌根腐病和秃斑病,是美国内陆太平洋西北地区(PNW)小麦和大麦的慢性且重要的限产病害。我们对这些病害的流行病学认识仍存在重大差距,部分原因是可以从田间同一谷物根系中分离出多种立枯丝核菌AG和菌种,这给正确鉴定病原体带来了挑战。在本研究中,通过2000年至2009年、2010年和2011年在PNW华盛顿州广泛的谷物生产田进行的调查,共收集了498株立枯丝核菌分离株。为了确定分离株的身份,使用AG或菌种特异性引物进行PCR和/或对内部转录间隔区进行DNA序列分析。立枯丝核菌AG-2-1、AG-8、AG-10、AG-3、AG-4和AG-11分别占分离株总数的157株(32%)、70株(14%)、21株(4%)、20株(4%)、1株(0.2%)和1株(0.2%)。AG-I样双核立枯丝核菌占总数的44株(9%);53株(11%)、80株(16%)和51株(10%)分别被鉴定为稻根腐丝核菌基因型I、II和III。AG-2-1分离株是主要的立枯丝核菌,出现在该采样区域内由年降水量和温度定义的所有六个农艺区。AG-8分离株的分布也很广泛,但分离频率因年份而异,在降水量低和中等的区域最为丰富。稻根腐丝核菌分布广泛,这三种基因型共占分离株的37%。只有立枯丝核菌AG-8和稻根腐丝核菌基因型II和III(但不是基因型I)的分离株会引起通常与立枯丝核菌根腐病和小麦秃斑病相关的症状。AG-2-1分离株仅引起轻度根腐病,AG-I样双核分离株以及AG-3、AG-4和AG-11组的成员仅显示根系轻微变色或不变色。然而,所有AG-2-1分离株都会导致油菜严重猝倒,死亡率达100%。立枯丝核菌AG-8、AG-2-1、AG-10、AG-I样双核立枯丝核菌以及稻根腐丝核菌基因型I、II和III的分离株可以通过在马铃薯葡萄糖琼脂上的菌落形态、使用特异性引物进行PCR或通过对小麦和油菜幼苗的病害类型和严重程度来区分,这些方法得到的结果完全相关。基于培养的分离株,我们还确定了所有这些立枯丝核菌分离株在华盛顿州整个谷物生产系统中的地理分布。
