华北农学报
華北農學報
화북농학보
ACTA AGRICULTURAE BOREALI-SINICA
2013年
5期
169-174
,共6页
梅鸿献%刘艳阳%武轲%杜振伟%郑永战
梅鴻獻%劉豔暘%武軻%杜振偉%鄭永戰
매홍헌%류염양%무가%두진위%정영전
芝麻%人工老化%种子活力%生理特性%活力检测方法
芝痳%人工老化%種子活力%生理特性%活力檢測方法
지마%인공노화%충자활력%생리특성%활력검측방법
Sesame%Accelerated aging%Seed vigor%Physiological characteristics%Vigor testing methords
以4种经过人工老化处理不同类型(单秆型白芝麻、分枝型白芝麻、单秆型黑麻和分枝型黑芝麻)芝麻种子为试验材料,采用标准发芽试验、电导率测定、MDA含量测定、POD活性测定和TTC还原量等方法进行种子活力测定,研究老化处理对芝麻种子生理生化的影响,并与模拟田间出苗率进行相关性分析,以确定不同类型芝麻种子活力检测的适宜方法。结果表明:芝麻种子老化过程中,发芽率、发芽势、发芽指数、活力指数、TTC还原量和POD活性逐渐下降,MDA含量逐渐增加,电导率变化趋势材料间不一致;不同种质的抗老化能力存在差异。单秆型白芝麻种子活力检测的适宜方法为发芽率和电导率测定;分枝型白芝麻种子活力检测的适宜方法是发芽率、电导率测定、MDA含量测定、POD活性测定和TTC还原量测定;单秆型黑芝麻种子活力检测的适宜方法是发芽率和POD活性测定;分枝型黑芝麻种子活力检测的适宜方法是发芽率和TTC还原量测定。芝麻在42~43℃、100%RH条件下,人工老化处理的最佳时间为72 h。
以4種經過人工老化處理不同類型(單稈型白芝痳、分枝型白芝痳、單稈型黑痳和分枝型黑芝痳)芝痳種子為試驗材料,採用標準髮芽試驗、電導率測定、MDA含量測定、POD活性測定和TTC還原量等方法進行種子活力測定,研究老化處理對芝痳種子生理生化的影響,併與模擬田間齣苗率進行相關性分析,以確定不同類型芝痳種子活力檢測的適宜方法。結果錶明:芝痳種子老化過程中,髮芽率、髮芽勢、髮芽指數、活力指數、TTC還原量和POD活性逐漸下降,MDA含量逐漸增加,電導率變化趨勢材料間不一緻;不同種質的抗老化能力存在差異。單稈型白芝痳種子活力檢測的適宜方法為髮芽率和電導率測定;分枝型白芝痳種子活力檢測的適宜方法是髮芽率、電導率測定、MDA含量測定、POD活性測定和TTC還原量測定;單稈型黑芝痳種子活力檢測的適宜方法是髮芽率和POD活性測定;分枝型黑芝痳種子活力檢測的適宜方法是髮芽率和TTC還原量測定。芝痳在42~43℃、100%RH條件下,人工老化處理的最佳時間為72 h。
이4충경과인공노화처리불동류형(단간형백지마、분지형백지마、단간형흑마화분지형흑지마)지마충자위시험재료,채용표준발아시험、전도솔측정、MDA함량측정、POD활성측정화TTC환원량등방법진행충자활력측정,연구노화처리대지마충자생리생화적영향,병여모의전간출묘솔진행상관성분석,이학정불동류형지마충자활력검측적괄의방법。결과표명:지마충자노화과정중,발아솔、발아세、발아지수、활력지수、TTC환원량화POD활성축점하강,MDA함량축점증가,전도솔변화추세재료간불일치;불동충질적항노화능력존재차이。단간형백지마충자활력검측적괄의방법위발아솔화전도솔측정;분지형백지마충자활력검측적괄의방법시발아솔、전도솔측정、MDA함량측정、POD활성측정화TTC환원량측정;단간형흑지마충자활력검측적괄의방법시발아솔화POD활성측정;분지형흑지마충자활력검측적괄의방법시발아솔화TTC환원량측정。지마재42~43℃、100%RH조건하,인공노화처리적최가시간위72 h。
Four different types of sesame germplasm resources ( Single-stem white sesame ,Branched-stem white sesame ,Single-stem Black sesame and Branched-stem black sesame ) treated with artificial ageing were used in this study .The standard germination test , electrical conductivity test , MDA content test , POD activity test and TTC re-ductive amounts test were conducted .The result showed that the germination potential ,germination rate,germination index ,vigor index ,TTC reductive amounts and POD activity declined gradually with the increase of seed aging time , whereas MDA content increased gradually .The trend of conductivity change was not consistent between materials . The differences of resistance to artifical aging existed among the four accessions .With the correlation analysis be-tween the seed vigor indexes and the simulated field emergence rate ,we got the conclusions that the suitable seed vigor testing methods for Single-stem white sesame were germination rate and electrical conductivity tests;for Branched-stem white sesame were germination rate ,electrical conductivity test ,MDA content test ,POD activity test and TTC reductive amounts test;for Single-stem black sesame were germination rate and POD activity test;and for the Branched-stem black sesame were germination rate and TTC reductive amounts test .The results showed that ac-celerated aging under conditions of 42-43 ℃at 100%RH for 72 h were appropriate for an accelerated aging test for seed vigor in sesame .
