中国马铃薯
中國馬鈴藷
중국마령서
CHINESE POTATO
2015年
3期
133-135
,共3页
解国庆%董清山%范书华%王艳%邵广忠%时新瑞%赵云彤
解國慶%董清山%範書華%王豔%邵廣忠%時新瑞%趙雲彤
해국경%동청산%범서화%왕염%소엄충%시신서%조운동
AMMI模型%马铃薯%基因型%产量%稳定性
AMMI模型%馬鈴藷%基因型%產量%穩定性
AMMI모형%마령서%기인형%산량%은정성
AMMI model%potato%genotype%yield%stability
为研究不同基因型马铃薯产量的年度稳定性,选用7个品种(系),采用随机区组设计,4次重复,应用AMMI模型对连续3年的数据进行了分析。结果表明,基因型、环境和基因型与环境互作的平方和分别占总平方和的47.69%、6.41%和40.03%,均达极显著水平。AMMI双标图表明,参试材料产量稳定性为‘牡9141’>‘牡8182’>‘克新13号’>‘牡91320’>‘牡8153’>‘克新4号’>‘克新12号’,平均产量为‘牡8153’>‘克新13号’>‘牡91320’>‘牡8182’>‘克新4号’>‘牡9141’>‘克新12号’。综合品系及其对应类型对照品种的丰产性及稳定性,‘牡91320’、‘牡9141’整体表现优于对照;‘牡8153’的丰产性好,但稳定性不如对照,‘牡8182’的稳定性好,丰产性不如对照。AMMI模型很好地解释了产量性状的基因型效应、环境效应和基因型与环境互作效应。
為研究不同基因型馬鈴藷產量的年度穩定性,選用7箇品種(繫),採用隨機區組設計,4次重複,應用AMMI模型對連續3年的數據進行瞭分析。結果錶明,基因型、環境和基因型與環境互作的平方和分彆佔總平方和的47.69%、6.41%和40.03%,均達極顯著水平。AMMI雙標圖錶明,參試材料產量穩定性為‘牡9141’>‘牡8182’>‘剋新13號’>‘牡91320’>‘牡8153’>‘剋新4號’>‘剋新12號’,平均產量為‘牡8153’>‘剋新13號’>‘牡91320’>‘牡8182’>‘剋新4號’>‘牡9141’>‘剋新12號’。綜閤品繫及其對應類型對照品種的豐產性及穩定性,‘牡91320’、‘牡9141’整體錶現優于對照;‘牡8153’的豐產性好,但穩定性不如對照,‘牡8182’的穩定性好,豐產性不如對照。AMMI模型很好地解釋瞭產量性狀的基因型效應、環境效應和基因型與環境互作效應。
위연구불동기인형마령서산량적년도은정성,선용7개품충(계),채용수궤구조설계,4차중복,응용AMMI모형대련속3년적수거진행료분석。결과표명,기인형、배경화기인형여배경호작적평방화분별점총평방화적47.69%、6.41%화40.03%,균체겁현저수평。AMMI쌍표도표명,삼시재료산량은정성위‘모9141’>‘모8182’>‘극신13호’>‘모91320’>‘모8153’>‘극신4호’>‘극신12호’,평균산량위‘모8153’>‘극신13호’>‘모91320’>‘모8182’>‘극신4호’>‘모9141’>‘극신12호’。종합품계급기대응류형대조품충적봉산성급은정성,‘모91320’、‘모9141’정체표현우우대조;‘모8153’적봉산성호,단은정성불여대조,‘모8182’적은정성호,봉산성불여대조。AMMI모형흔호지해석료산량성상적기인형효응、배경효응화기인형여배경호작효응。
Seven potato varieties (lines), which were grown four replications in a randomized complete block design for three consecutive years, were analyzed for their yield stability using AMMI model. Sum of square for genetype, environment and genotype × environment accounted for 47.69%, 6.41%and 40.03%of the total sum of square, and al of these variation sources reached highly significance. The biplots indicated that yield stability for genotypes tested was:'Mu9141'>'Mu8182'>'Kexin 13'>'Mu91320'>'Mu8153'>'Kexin 4'>'Kexin 12', and the yield was:'Mu8153'>'Kexin 13'>'Mu91320'>'Mu8182'>'Kexin 4'>'Mu9141'>'Kexin 12'. Considered based on breeding lines purpose and corresponding control variety, 'Mu91320' and 'Mu9141' were superior to their corresponding control in both yield and yield stability;'Mu8153' was higher yielding, but less stable, however, 'Mu8182' was higher stable, but less yielding than the control. AMMI model explained wel the effects of genotype, environment and genotype × environment interaction on yield.