吉林农业大学学报
吉林農業大學學報
길임농업대학학보
JOURNAL OF JILIN AGRICUL TURAL UNIVERSITY
2015年
2期
153-159
,共7页
邹春蕾%刘长远%王丽萍%王辉%辛彬%姜闯
鄒春蕾%劉長遠%王麗萍%王輝%辛彬%薑闖
추춘뢰%류장원%왕려평%왕휘%신빈%강틈
辣椒%疫病%防御酶%土壤酶
辣椒%疫病%防禦酶%土壤酶
랄초%역병%방어매%토양매
pepper%Phytophthora capsici%defense enzyme%soil enzyme
选择来自于亚蔬—世界蔬菜研究与发展中心和国家作物种质资源库20个对辣椒疫病具有不同抗性的辣椒品系,采用灌根法人工接种辣椒疫霉菌3号生理小种,根据不同辣椒品系的病情指数,将20个品系划分为免疫( I)、高抗( HR)、抗( R)、中抗( MR)和感( S)5种抗病类型。采用常规方法测定辣椒叶片6种防御酶活性和根际8种土壤酶活性,判断各项指标与辣椒抗疫病特性的相关性。结果表明:叶片防御酶中苯丙氨酸解氨酶、多酚氧化酶、β?1,3?葡聚糖酶活性与植株抗病性极显著正相关,过氧化物酶活性与植株抗病性呈显著正相关,根际土壤酶中多酚氧化酶、过氧化氢酶、脲酶、蛋白酶活性与植株抗病性显著正相关。叶片中苯丙氨酸解氨酶、多酚氧化酶、β?1,3?葡聚糖酶活性可作为辣椒抗病种质资源筛选的判断依据,与植株抗病性相关的土壤酶可以作为土壤微环境调控的依据。
選擇來自于亞蔬—世界蔬菜研究與髮展中心和國傢作物種質資源庫20箇對辣椒疫病具有不同抗性的辣椒品繫,採用灌根法人工接種辣椒疫黴菌3號生理小種,根據不同辣椒品繫的病情指數,將20箇品繫劃分為免疫( I)、高抗( HR)、抗( R)、中抗( MR)和感( S)5種抗病類型。採用常規方法測定辣椒葉片6種防禦酶活性和根際8種土壤酶活性,判斷各項指標與辣椒抗疫病特性的相關性。結果錶明:葉片防禦酶中苯丙氨痠解氨酶、多酚氧化酶、β?1,3?葡聚糖酶活性與植株抗病性極顯著正相關,過氧化物酶活性與植株抗病性呈顯著正相關,根際土壤酶中多酚氧化酶、過氧化氫酶、脲酶、蛋白酶活性與植株抗病性顯著正相關。葉片中苯丙氨痠解氨酶、多酚氧化酶、β?1,3?葡聚糖酶活性可作為辣椒抗病種質資源篩選的判斷依據,與植株抗病性相關的土壤酶可以作為土壤微環境調控的依據。
선택래자우아소—세계소채연구여발전중심화국가작물충질자원고20개대랄초역병구유불동항성적랄초품계,채용관근법인공접충랄초역매균3호생리소충,근거불동랄초품계적병정지수,장20개품계화분위면역( I)、고항( HR)、항( R)、중항( MR)화감( S)5충항병류형。채용상규방법측정랄초협편6충방어매활성화근제8충토양매활성,판단각항지표여랄초항역병특성적상관성。결과표명:협편방어매중분병안산해안매、다분양화매、β?1,3?포취당매활성여식주항병성겁현저정상관,과양화물매활성여식주항병성정현저정상관,근제토양매중다분양화매、과양화경매、뇨매、단백매활성여식주항병성현저정상관。협편중분병안산해안매、다분양화매、β?1,3?포취당매활성가작위랄초항병충질자원사선적판단의거,여식주항병성상관적토양매가이작위토양미배경조공적의거。
Twenty lines of pepper with different phytophthora?resistance were observed from AVRDC and Institute of Crop Sciences, CAAS. Race 3 with Phytophthora capsici was artificially inoculated by root?irrigation and according to disease index, the 20 lines were divided into 5 phytophthora?re?sistant types, immunity ( I) , high resistance( HR) , resistance( R) , moderate resistance( MR) and susceptibility ( S) . By conventional methods, activities of 6 defense enzymes in leaf and 8 soil en?zymes in rhizosphere were measured to analyze the correlation of different indices with pepper Phyto?phthora?resistance. Activities of PAL, PPO andβ?1,3?glucanase in leaf defense enzymes had signif?icantly positive correlation with resistance. Activities of POD were positively correlated with resist?ance. Meanwhile, resistance was positively correlated with activities of PPO, CAT, Urease and Pro?tease in rhizosphere soil enzymes. Activities of PAL, PPO and β?1,3?glucanase in leaf could be used to identify the resistance of pepper. Soil enzymes related to phytophthora?resistance could be used as basis for regulating soil environment.
