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Multi-ecological wide-adaptation multi-resistance and breeding-potentiality-incremental population improvement breeding system

A multi-ecological, group technology, applied in the direction of plant genetic improvement, application, botanical equipment and methods, etc., can solve problems such as difficulty in implementation, and achieve the effect of improving internationalization and shortening breeding years.

Inactive Publication Date: 2016-03-09
INST OF AGRI SCI ALONG YANGTZE RIVER IN JIANGSU
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Problems solved by technology

The germplasm expansion plan of the United States (including the Americas) in the new century is mainly based on the top-crossing method of superior lines and hybrid combinations based on a large amount of previous breeding work. Although the yield increase is relatively large after obtaining an excellent germplasm, However, germplasm in tropical and subtropical regions has a process of domestication, and its combination form is also similar to the narrow-basic method, which is difficult to implement under the current breeding system in our country.

Method used

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Embodiment Construction

[0026] A multi-ecology, wide-adaptation, multi-resistance and population improvement breeding system with increasing breeding potential comprises the following steps:

[0027] (1) Determination of germplasm: Select the excellent germplasm of the initial group of three groups for reincarnation selection.

[0028] (2) According to the basis of breeding pedigree and molecular marker grouping, the germplasm is divided into three groups: Group A is synthesized from the germplasm of PA group and Reid group in maize breeding (it can include PAReid groups such as Zheng 58, S951, N18S951, H991, etc. 15 lines), group B is synthesized with PB and Lancaster germplasm (it can include 18 excellent PB Lanca groups including S651, T877, YJ7, Shen 137, Mo17, SwanRU2), group D is based on Lvda red bone group and Sipingtou group synthesis (including 16 excellent lines including Dan 340, E28, Chang 7-2, Zong 3 Chang 7-2, 414, S44S, etc.), the germplasm of the 3 groups were crossed with one mother...

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Abstract

The invention discloses a multi-ecological wide-adaptation multi-resistance and breeding-potentiality-incremental population improvement breeding system which comprises the steps of selection of three groups of high-quality germplasms for matching recurrent selection initial populations, resistance selection, amphiploid and haploid breeding, DH system testing, combining ability testing, application of a DH system in breeding, matching a second recurrent initial population, and the like. The multi-ecological wide-adaptation multi-resistance and breeding-potentiality-incremental population improvement breeding system provided by the invention advocates that recurrent selection in the aspects of synthetic resistance to pests and diseases, lodging resistance, yield and the like is performed under a multi-ecological condition, and population interchanging and mutual combination are performed to polymerize valuable genes which are multi-resistant, high-yield, widely-adaptive and the like, so that the hereditary basis of a recurrent selection population can be continuously extended, and the breeding performance is continuously improved.

Description

technical field [0001] The invention relates to a multi-ecology, wide-adaptation, multi-resistance and population improvement breeding system with increasing breeding potential. Background technique [0002] Corn is the largest crop in terms of area and output in my country and the largest crop in the world. At present, the yield per unit area of ​​corn in my country is only 5416.7 kg / ha (2008), which is far lower than the 10000 kg / ha in the United States (2005). The maximum yield of corn in a small area in my country is about 15,000 kg / ha, which is also far lower than the 27,750 kg / ha in the high-yield competition in the United States (created by Francis Childs in Iowa, USA in 2002). In the past one or two decades, the trend of corn breeding in the world is to improve the comprehensive stress resistance of varieties to increase the yield of corn populations, and the density is gradually increasing. For example, in the 1930s in the United States, the planting density was l...

Claims

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Application Information

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IPC IPC(8): A01H1/02A01H1/04A01H1/08
CPCA01H1/02A01H1/04A01H1/08
Inventor 石明亮薛林冒宇翔黄小兰郝德荣陆虎华陈国清胡加如周广飞程玉静张振良孙权星
Owner INST OF AGRI SCI ALONG YANGTZE RIVER IN JIANGSU
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