Sweetpotato(Ipomoea batatas(L.)Lam.)is a widely grown food crop especially in developing countries.Increasing storage-root yield and dry-matter content has been the main breeding objective of the crop,and DNA marker-a...Sweetpotato(Ipomoea batatas(L.)Lam.)is a widely grown food crop especially in developing countries.Increasing storage-root yield and dry-matter content has been the main breeding objective of the crop,and DNA marker-assisted breeding is needed for this purpose.In this study,using a mapping population of 500 F1 individuals from a cross between Xushu 18(female)and Xu 781(male),we constructed a highdensity genetic linkage map of sweetpotato using 601 simple-sequence repeat(SSR)primer pairs.The Xushu 18 map contained 90 linkage groups with 5547 SSR markers and spanned 18,263.5 cM,and the Xu 781 map contained 90 linkage groups with 4599 SSR markers and spanned 18,043.7 cM,representing the highest genome coverage yet reported for sweetpotato.We identified 33 QTL for storage-root yield and 16 QTL for dry-matter content,explaining respectively 6.5%–47.5%and 3.2%–18.9%of variation.These results provide a foundation for fine-mapping and cloning of QTL and for marker-assisted breeding in sweetpotato.展开更多
Pot-grown tomato plants (Lycopersicon esculentum Mill. cv. Maofen) was used to study the effects ofthree shading levels (0, 75% and 40%) for 8 days on dry matter partitioning, contents of nitrogen (N),phosphorus (P) a...Pot-grown tomato plants (Lycopersicon esculentum Mill. cv. Maofen) was used to study the effects ofthree shading levels (0, 75% and 40%) for 8 days on dry matter partitioning, contents of nitrogen (N),phosphorus (P) and potassium (K) in leaves and yield at three growth stages (early flowering (EF), peakflowering (PF) and later flowering (LF)). Shading reduced the dry weight of root and stem tissues at the EFand PF stages, but the 40% shading increased root dry weight and stem dry weight by 43.2% and 21.6%,respectively, at the LF stage. The influence of shading on the dry weight of leaves was very small at mostgrowth stages. Shading had no effects on total leaf N, P and K contents at the EF and PF stages, showingthat N, P and K absorption were regulated by the carbon assimilation at these two stages. The leaf N, Pand K contents of 40% shaded plants at the LF stage were significantly increased. There were no obviousdifferences in leaf N and K contents between 75% and 40% shading treatments, but significant difference inleaf P contents was found between them at the LF stage. Shading significantly enhanced the fruit yield of40% shaded tomato plants at the LF stage, but failed to affect the fruit yield of shaded plants at the EFstage. These showed that tomato could grow well and a better yield could be obtained if some moderateshading (i.e., 40% shading) was applied at the LF stage at summer midday.展开更多
为提高新疆旱地春小麦产量及水分利用效率,筛选出适宜的播种方式,采用单因素随机区组试验,设置传统平作(T1)、起垄沟播(T2)、起垄覆膜沟播(T3)3个播种方式,研究不同播种方式下旱地的土壤含水量及春小麦的叶面积指数(leaf area index,LAI...为提高新疆旱地春小麦产量及水分利用效率,筛选出适宜的播种方式,采用单因素随机区组试验,设置传统平作(T1)、起垄沟播(T2)、起垄覆膜沟播(T3)3个播种方式,研究不同播种方式下旱地的土壤含水量及春小麦的叶面积指数(leaf area index,LAI)、干物质量、产量,并进一步比较土壤贮水量、耗水量及水分利用效率等。结果表明,在抽穗期之前,T2和T3处理均可显著增加旱地春小麦的LAI和干物质量;在抽穗期之后,T3处理较T2和T1处理更有利于提高旱地春小麦的LAI和干物质量。同时,T3处理可显著提高拔节期土壤0—80 cm土层的含水量和贮水量,分别较T2、T1处理显著提高32.09%、34.64%和38.20%、38.85%;T3处理降低了播种—拔节期土壤耗水量,增加了拔节期—收获期的土壤耗水量,有利于植株中、后期的生长发育。T3处理可提高旱地春小麦的有效穗数、单穗粒数、籽粒产量、水分利用效率和降水利用效率,其中产量最高为2474.43 kg·hm^(-2),较T1、T2处理分别显著增加50.13%和50.47%;水分利用效率和降水利用效率分别显著提高48.99%、51.02%和49.41%、50.15%。综上所述,起垄覆膜沟播有利于小麦增产和水分高效利用,为新疆旱地春小麦蓄水保墒和高产高效提供了理论依据及技术参考。展开更多
基金supported by the National Key Research and Development Program of China(2019YFD1001300,2019YFD1001301)the Earmarked Fund for CARS-10-Sweetpotato(CARS-10)+1 种基金the Beijing Food Crops Innovation Consortium Program(BAIC02-2022)Hebei Key R&D Program(20326320D,22322911D)。
文摘Sweetpotato(Ipomoea batatas(L.)Lam.)is a widely grown food crop especially in developing countries.Increasing storage-root yield and dry-matter content has been the main breeding objective of the crop,and DNA marker-assisted breeding is needed for this purpose.In this study,using a mapping population of 500 F1 individuals from a cross between Xushu 18(female)and Xu 781(male),we constructed a highdensity genetic linkage map of sweetpotato using 601 simple-sequence repeat(SSR)primer pairs.The Xushu 18 map contained 90 linkage groups with 5547 SSR markers and spanned 18,263.5 cM,and the Xu 781 map contained 90 linkage groups with 4599 SSR markers and spanned 18,043.7 cM,representing the highest genome coverage yet reported for sweetpotato.We identified 33 QTL for storage-root yield and 16 QTL for dry-matter content,explaining respectively 6.5%–47.5%and 3.2%–18.9%of variation.These results provide a foundation for fine-mapping and cloning of QTL and for marker-assisted breeding in sweetpotato.
基金Project supported by the National Natural Science Foundation of China(No.40101005),the Provincial Natural Science Foundation of Shandong(No.Q2002E03)and the Provincial Education Committee of Shandong(No.J02L01).
文摘Pot-grown tomato plants (Lycopersicon esculentum Mill. cv. Maofen) was used to study the effects ofthree shading levels (0, 75% and 40%) for 8 days on dry matter partitioning, contents of nitrogen (N),phosphorus (P) and potassium (K) in leaves and yield at three growth stages (early flowering (EF), peakflowering (PF) and later flowering (LF)). Shading reduced the dry weight of root and stem tissues at the EFand PF stages, but the 40% shading increased root dry weight and stem dry weight by 43.2% and 21.6%,respectively, at the LF stage. The influence of shading on the dry weight of leaves was very small at mostgrowth stages. Shading had no effects on total leaf N, P and K contents at the EF and PF stages, showingthat N, P and K absorption were regulated by the carbon assimilation at these two stages. The leaf N, Pand K contents of 40% shaded plants at the LF stage were significantly increased. There were no obviousdifferences in leaf N and K contents between 75% and 40% shading treatments, but significant difference inleaf P contents was found between them at the LF stage. Shading significantly enhanced the fruit yield of40% shaded tomato plants at the LF stage, but failed to affect the fruit yield of shaded plants at the EFstage. These showed that tomato could grow well and a better yield could be obtained if some moderateshading (i.e., 40% shading) was applied at the LF stage at summer midday.
文摘为提高新疆旱地春小麦产量及水分利用效率,筛选出适宜的播种方式,采用单因素随机区组试验,设置传统平作(T1)、起垄沟播(T2)、起垄覆膜沟播(T3)3个播种方式,研究不同播种方式下旱地的土壤含水量及春小麦的叶面积指数(leaf area index,LAI)、干物质量、产量,并进一步比较土壤贮水量、耗水量及水分利用效率等。结果表明,在抽穗期之前,T2和T3处理均可显著增加旱地春小麦的LAI和干物质量;在抽穗期之后,T3处理较T2和T1处理更有利于提高旱地春小麦的LAI和干物质量。同时,T3处理可显著提高拔节期土壤0—80 cm土层的含水量和贮水量,分别较T2、T1处理显著提高32.09%、34.64%和38.20%、38.85%;T3处理降低了播种—拔节期土壤耗水量,增加了拔节期—收获期的土壤耗水量,有利于植株中、后期的生长发育。T3处理可提高旱地春小麦的有效穗数、单穗粒数、籽粒产量、水分利用效率和降水利用效率,其中产量最高为2474.43 kg·hm^(-2),较T1、T2处理分别显著增加50.13%和50.47%;水分利用效率和降水利用效率分别显著提高48.99%、51.02%和49.41%、50.15%。综上所述,起垄覆膜沟播有利于小麦增产和水分高效利用,为新疆旱地春小麦蓄水保墒和高产高效提供了理论依据及技术参考。