F1 heterosis of agronomic characters and chemical components of 8 fluecured tobacco varieties and 6 self-bred high-potassium new lines was studied. The results showed that 4-5 weeks after transplanting was the main ch...F1 heterosis of agronomic characters and chemical components of 8 fluecured tobacco varieties and 6 self-bred high-potassium new lines was studied. The results showed that 4-5 weeks after transplanting was the main changing period of agronomic traits. Compared with the comparative heterosis, among the proportions of combinations showing positive comparative heterosis at the significant level, the heterosis proportions of plant height (97.92%), internode length (100%) and stem girth (58.33%) were larger, these of total nitrogen (83.33%), protein (79.17%), nicotine (79.17%) and potassium (95.83%) in upper leaves were larger, these of total sugar (64.58%), total nitrogen (68.75%), protein (72.92%) and nicotine (64.58%) in middle leaves were larger, and in lower leaves, except that the proportion of chlorine was smaller (12.50%), the proportions of other chemical components all exceeded 40%. Compared with average heterosis, among the proportions of combinations showing positive comparative heterosis at the significant level, the heterosis proportions of plant height (54.17%), leaf width (43.75%), stem girth (43.75%) and internode length (72.92%) were larger, these of total sugar (47.92%) and reducing sugar (54.17%) in upper leaves were larger, these of all the chemical components in middle leaves exceeded 30%, and these of all the chemical components in lower leaves were in the range of 27.08%-41.67%. Compared with heterobeltiosis, among the proportions of combinations showing positive comparative heterosis at the significant level, that of the internode length (60.42%) was larger, these of chemical components in upper leaves were in the range of 8.33%-29.17%, these of chemical components in middle leaves were in the range of 20.83%-39.58%, and these of chemical components in lower leaves were in the range of 16.67%-35.42%. It was indicated that rational effective control of water and fertilizer in this sensitive period could significantly enhance heterosis.展开更多
基金Supported by Key Project of China Tobacco Corporation in 2014(110201402003)~~
文摘F1 heterosis of agronomic characters and chemical components of 8 fluecured tobacco varieties and 6 self-bred high-potassium new lines was studied. The results showed that 4-5 weeks after transplanting was the main changing period of agronomic traits. Compared with the comparative heterosis, among the proportions of combinations showing positive comparative heterosis at the significant level, the heterosis proportions of plant height (97.92%), internode length (100%) and stem girth (58.33%) were larger, these of total nitrogen (83.33%), protein (79.17%), nicotine (79.17%) and potassium (95.83%) in upper leaves were larger, these of total sugar (64.58%), total nitrogen (68.75%), protein (72.92%) and nicotine (64.58%) in middle leaves were larger, and in lower leaves, except that the proportion of chlorine was smaller (12.50%), the proportions of other chemical components all exceeded 40%. Compared with average heterosis, among the proportions of combinations showing positive comparative heterosis at the significant level, the heterosis proportions of plant height (54.17%), leaf width (43.75%), stem girth (43.75%) and internode length (72.92%) were larger, these of total sugar (47.92%) and reducing sugar (54.17%) in upper leaves were larger, these of all the chemical components in middle leaves exceeded 30%, and these of all the chemical components in lower leaves were in the range of 27.08%-41.67%. Compared with heterobeltiosis, among the proportions of combinations showing positive comparative heterosis at the significant level, that of the internode length (60.42%) was larger, these of chemical components in upper leaves were in the range of 8.33%-29.17%, these of chemical components in middle leaves were in the range of 20.83%-39.58%, and these of chemical components in lower leaves were in the range of 16.67%-35.42%. It was indicated that rational effective control of water and fertilizer in this sensitive period could significantly enhance heterosis.
