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Creation of Cultivars with High Productive Tillering Capacity and Synchronous Earing for Ridge Technology Cultivation
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作者 E. D. Bogdanova K. Kh. Makhmudova 《Journal of Agricultural Science and Technology(B)》 2011年第3期458-462,共5页
For cultivation of new common wheat cultivars having valuable morphological traits new resource-saving ridge technology was applied. Our collection of dwarf lines, obtained in the result of cyclical diallel crossings ... For cultivation of new common wheat cultivars having valuable morphological traits new resource-saving ridge technology was applied. Our collection of dwarf lines, obtained in the result of cyclical diallel crossings of genotrophs, induced by pyridine carbonic acids, zoned common wheat cultivars and short stem common wheat samples from the World Wide Collection of the Russian Institute of Plant Industry, was applied for creation of new common wheat lines having valuable morphological traits. It was observed that open blooming dwarfs were good for cross-pollination, and without insulation they demonstrated a great issue of natural hybrids. It was marked that cross-pollination promoted appearance of great number of hybrid plants with high productive tillering capacity. After individual selection among those hybrid plants and their propagation we got fertile constant lines of common winter wheat having 17-20 productive stems per one plant and a productive ear. These lines are firm and resistant to lodging. At the present time these constant lines are cultivated in conditions of resource-saving ridge technology. 展开更多
关键词 Ridge technology common wheat high productive tillering capacity.
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Optimizing Plant Spacing under the Systems of Rice Intensification (SRI)
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作者 Paul Reuben Fredrick C. Kahimba +5 位作者 Zacharia Katambara Henry F. Mahoo Winfred Mbungu Fikiri Mhenga Anthony Nyarubamba Muyenjwa Maugo 《Agricultural Sciences》 2016年第4期270-278,共9页
Optimum plant spacing is among key agronomic parameters that influence crop growth performance and crop yield. A study was conducted to investigate the optimum rice transplanting spacing under the Systems of Rice Inte... Optimum plant spacing is among key agronomic parameters that influence crop growth performance and crop yield. A study was conducted to investigate the optimum rice transplanting spacing under the Systems of Rice Intensification (SRI) practice in Tanzania. The study composed of five treatments of rice transplanting spacing namely 1) 15 cm × 15 cm (T1);2) 20 cm × 20 cm (T2);3) 25 cm × 25 cm (T3);4) 30 cm × 30 cm (T4);and 5) 35 cm × 35 cm (T5). The experiment was set in a Randomized Complete Block Design (RCBD) and transplanted with uniform age of 12 days old seedlings in all treatments. The rice variety tested was TXD 306 Super SARO which was recommended by the Ministry of Agriculture for flooded rice in central and eastern Tanzania. Data was collected throughout the two growing seasons (Masika and Vuli) of 2013 and 2014. Data collected include biomass at vegetative, flowering and harvesting stages, total number of tillers per hill, number of productive tillers per hill, number of grains per panicle and rice grain yield at the end of the season. Data was analyzed using SAS software version 9.1. Results have shown that transplanting spacing of 25 cm × 25 cm, 30 cm × 30 cm and 35 cm × 35 cm has significantly performed better than rice transplanted at 15 cm × 15 cm and 20 cm × 20 cm. For the higher performing treatments, 25 cm × 25 cm has performed much higher than the rest. It is therefore recommended that for rice variety TXD 306 Super SARO under SRI practice in areas with soil conditions similar to Mkindo area in Morogoro Region, the optimum transplanting spacing that gives maximum yield is 25 × 25 cm. 展开更多
关键词 SRI Transplanting Spacing Biomass tillerS productive tillers HILL Treatment Yield
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Influence of Transplanting Age on Paddy Yield under the System of Rice Intensification
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作者 Paul Reuben Zacharia Katambara +5 位作者 Fredrick C. Kahimba Henry F. Mahoo Winfred B. Mbungu Fikiri Mhenga Anthony Nyarubamba Muyenjwa Maugo 《Agricultural Sciences》 2016年第3期154-163,共10页
Agronomic practices such as transplanting age, plant spacing, and water application regimes in irrigated paddy production can have a significant impact towards the performance in rice growth and yield. A study was con... Agronomic practices such as transplanting age, plant spacing, and water application regimes in irrigated paddy production can have a significant impact towards the performance in rice growth and yield. A study was conducted to investigate the optimum transplanting age for maximum rice productivity under the systems of rice intensification (SRI) technology. The study treatments adopted were three representing 8, 12 and 15 days old seedlings replicated 3 times each. The experiment was set in randomized complete block design (RCBD) and transplanted at spacing 25 cm × 25 cm between rice hills. The rice variety tested was TXD 306 Super SARO, which was recommended by the ministry of Agriculture in Tanzania. Data was collected throughout the growing season in two mixed short rains and dry season of September 2013/2014 and September 2014/2015. Data collected included biomass at vegetative, flowering and harvesting stages, total number of tillers per hill, number of productive tillers per hill, number of grains per panicle and rice grain yield at the end of the season. Data was analyzed using SAS software version 9.1. The results suggested that transplanting at younger age of 8 to 12 days was recommended for Mkindo area in Mvomero Distirct, and other areas with similar soil conditions and agro ecological characteristics. 展开更多
关键词 SRI Transplanting Age Biomass tillerS productive tillers HILL Field Treatment YIELD
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