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排序方式: 共有409条查询结果,搜索用时 296 毫秒
1.
野生朱红硫磺菌驯化栽培研究 总被引:2,自引:2,他引:2
营养试验、菌丝体培养和出菇温度试验、培养基酸碱度试验、出菇条件试验结果表明:朱红硫磺菌菌丝体适宜生长的温度范围为15-32℃,最适温度范围为22~28℃;子实体发生的最适温度为16~25℃,气温低于16℃,子实体色泽为淡橙色,16℃以上,子实体呈鲜橙红色;培养料适宜营养C/N为20-26/1;朱红硫磺菌菌丝体适宜酸碱度范围为pH3.0~8.0,最适酸碱度为pH4.0—6.5;朱红硫磺菌的产量与光照条件无关,但光照强度影响子实体的发生时间和色泽;朱红硫磺菌栽培原料广泛,凡栽培木腐菌的培养料均可用于栽培朱红硫磺菌。 相似文献
2.
In cucumber, the genetic basis of traits under domestication and/or diversifying selection is not well understood. Here, we reported QTL mapping for flowering time and fruit size-related traits with segregating populations derived from a cultivated × wild cross. Phenotypic data of flowering time (FT), fruit size (FS), fruit number (FN) and fruit weight per plant (FW) were collected in multiple environments. QTL analysis identified 19 QTL for these traits. We found that the major-effect QTL FT1.1 played an important role in regulating flowering time in cultivated cucumber, whereas the minor-effect QTL FT6.3 contributed to photoperiod sensitive flowering time during domestication. Two novel consensus FS QTL, FS1.4 and FS2.3, seem to be the targets of selection during breeding for the US processing cucumber. All other FS QTL were co-localized with previously detected QTL using populations derived from cultivated cucumbers, suggesting that they were under selection during both initial domestication and subsequent improvement. Results from this study also suggested that the wild cucumber is a useful resource for capturing positive transgressive segregation and novel alleles that could be explored in cucumber breeding. 相似文献
3.
J. P. Rodríguez M. Aro M. Coarite S.‐E. Jacobsen B. Ørting M. Sørensen C. Andreasen 《Journal of Agronomy and Crop Science》2017,203(3):254-267
Cañahua (Chenopodium pallidicaule Aellen) is a semi‐domesticated relative of quinoa (Chenopodium quinoa Willd.) with high nutritious quality. It is tolerant to frost, drought, saline soils and pests. One seed yield limitation is seed loss during the maturity stages. Two greenhouse experiments in Denmark and field experiments in Bolivia were carried out to determine seed shattering in landraces and cultivars with different growth habits. 15–21 % of the seed shattering in the fields took place whilst the plants still were flowering and 25–35 % during physiological maturity. Seed shattering varied between locations on the Bolivian Altiplano. Cañahua types with the semi‐prostrate growth (‘lasta’) had the highest seed shattering rate in the greenhouse experiments. The Umacutama landrace had lower seed shattering (1 %) than the cultivar Kullaca (7.2 %) both of the ‘lasta’ type. Under field conditions, the cultivar Illimani with the erect growth (‘saihua’) had the highest seed shattering rate (6.4–33.7 %) at both locations and at four different sowing dates. The Umacutama had the lowest rate (0.5–1.5 %). There were no significant differences between plants of the ‘lasta’ and the ‘saihua’ types. The landrace had significantly less seed loss than the cultivars. However, in the greenhouse, the landrace yield was approximately 25 % lower than the yields of the cultivars. In general, cañahua cultivars had higher yield compared to landraces, but also a higher seed shattering rate. Landraces may be used in breeding programmes to develop high‐yielding cultivars with reduced seed shattering. 相似文献
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P. Nilsson Sven‐Åke Johansson Arnulf Merker 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(3):159-164
The seed oil composition and content in a number of accessions from species of the genera Barbarea and Lepidium were analysed. The oil from most accessions of B. verna contained more than 50% erucic acid, while the oil from B. vulgaris contained ~ 30% erucic acid, and 22% each of oleic and linoleic acid. The oil from B. intermedia resembled that of B. verna. The oil content was ~ 30% in all three species. The oil composition of L. campestre and L. heterophyllum is ~ 35% linolenic acid and 23% erucic acid. Other Lepidium species had up to 47% linolenic acid in the oil. The oil content of L. campestre and L. heterophylhim was just below 20%, but other species had more than 30% oil in their seeds. The variation in oil composition found within and between species is considered sufficient for the breeding of valuable oil qualities in both genera. 相似文献
7.
建立仿生型兰花驯化园的研究 总被引:1,自引:0,他引:1
仿野生兰花的生长环境,选择适宜的林地小气候条件建立兰花驯化园,在不搭荫棚、不搭防雨棚下、使地产兰花在林内安全越冬,既达到了保护野生兰花种质资源和合理开发利用的目的,又节约了建园投资用80%~90%,为山区农民节省耕地、养兰政官提供了一条新门路。 相似文献
8.
树木的引种驯化是增加林木种质资源的一种传统育种方法。山东省有记载的针叶树引种历史应追溯到19世纪末至20世纪初,在20世纪50年代和70年代分别出现两个引种高峰期,分别占引种种质的26.5%和21.5%。山东有计划的科学引种针叶树种约30个,其中银杏科1个属1个种,19份种质;松科5个属39份种质;杉科4个属5份种质;柏科3个属3个种质,共计66份种质,其中松科种质占总引种种质59.09%,而松属种质占松科种质79.49%。从1978~2006年省林业厅鉴定或获奖的项目中针叶树遗传改良占4.77%,审(认)定品种占总数量5.22%。建议:(1)强化针叶树引种驯化策略;(2)明确引种驯化程序、标准和关键技术;引种驯化与种质创新相结合;(3)重视乡土树种驯化及开发。本文对针叶树引种驯化与遗传改良进行了评价。 相似文献
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Ard G. Lengkeek Alice Muchugi Mwangi Caroline A. C. Agufa Joseph O. Ahenda Ian K. Dawson 《Agroforestry Systems》2006,67(3):293-300
It is possible that current tree domestication practices undertaken by farmers reduce the genetic base of tree resources on
farms, raising concerns regarding the productivity, sustainability and conservation value of agroforestry ecosystems. Here,
we assessed possible changes in genetic variation during domestication in the important and heavily utilised timber species,
Vitex fischeri Gürke (syn. Vitex keniensis), by comparing geographically proximate forest and farm material in central Kenya. Employing RAPD analysis, a total of 104
polymorphic markers revealed by five arbitrary primers were scored in a total of 65 individuals, 32 from forest and 33 from
farmland. Despite concerns of possible genetic erosion, forest and farm stands did not differ significantly in levels of genetic
variation, with H values of 0.278 and 0.269, respectively. However, Mantel tests did reveal greater geographically related associative genetic
structure among individuals in farm rather than forest material, with r
M values of 0.217 and 0.114, respectively. A more detailed analysis of structure suggested this could be due to local variation
in origin of some on-farm trees. Implications of data for the genetic management of V. fischeri stands during farmer-led tree domestication activities are discussed. At present, there appears little reason to reject on-farm
V. fischeri as a source of germplasm for future on-farm planting or for conservation purposes, although this situation may change and
will require monitoring. 相似文献