印度南部茄子（茄属龙葵；茄科）中作物与野生种杂交的可能性。

The potential for crop to wild hybridization in eggplant (Solanum melongena; Solanaceae) in southern India.

作者信息

Davidar Priya, Snow Allison A, Rajkumar Muthu, Pasquet Remy, Daunay Marie-Christine, Mutegi Evans

机构信息

Department of Ecology and Environmental Sciences, Pondicherry University, Kalapet, Pondicherry 605014, India.

Department of Evolution, Ecology, and Organismal Biology, Ohio State University, 318 W. 12th Avenue, Columbus, Ohio 43210 USA.

出版信息

Am J Bot. 2015 Jan;102(1):129-39. doi: 10.3732/ajb.1400404. Epub 2015 Jan 5.

DOI:10.3732/ajb.1400404

PMID:25587155

Abstract

UNLABELLED

•

PREMISE OF THE STUDY

In India and elsewhere, transgenic Bt eggplant (Solanum melongena) has been developed to reduce insect herbivore damage, but published studies of the potential for pollen-mediated, crop- to- wild gene flow are scant. This information is useful for risk assessments as well as in situ conservation strategies for wild germplasm.•

METHODS

In 2010-2014, we surveyed 23 populations of wild/weedy eggplant (Solanum insanum; known as wild brinjal), carried out hand-pollination experiments, and observed pollinators to assess the potential for crop- to- wild gene flow in southern India.•

KEY RESULTS

Wild brinjal is a spiny, low-growing perennial commonly found in disturbed sites such as roadsides, wastelands, and sparsely vegetated areas near villages and agricultural fields. Fourteen of the 23 wild populations in our study occurred within 0.5 km of cultivated brinjal and at least nine flowered in synchrony with the crop. Hand crosses between wild and cultivated brinjal resulted in seed set and viable F1 progeny. Wild brinjal flowers that were bagged to exclude pollinators did not set fruit, and fruit set from manual self-pollination was low. The exserted stigmas of wild brinjal are likely to promote outcrossing. The most effective pollinators appeared to be bees (Amegilla, Xylocopa, Nomia, and Heterotrigona spp.), which also were observed foraging for pollen on crop brinjal.•

CONCLUSION

Our findings suggest that hybridization is possible between cultivated and wild brinjal in southern India. Thus, as part of the risk assessment process, we assume that transgenes from the crop could spread to wild brinjal populations that occur nearby.

摘要

未标注

研究前提：在印度及其他地区，已培育出转基因抗虫茄子（茄属茄子）以减少昆虫食草动物造成的损害，但关于花粉介导的作物向野生基因流动可能性的已发表研究却很少。这些信息对于风险评估以及野生种质的原地保护策略很有用。
方法：在2010 - 2014年期间，我们调查了23个野生/杂草茄子（野生茄；即野生茄子）种群，进行了人工授粉实验，并观察传粉者，以评估印度南部作物向野生基因流动的可能性。
主要结果：野生茄子是一种多刺、低矮的多年生植物，常见于路边、荒地以及村庄和农田附近植被稀疏的受干扰地区。我们研究的23个野生种群中有14个位于栽培茄子0.5公里范围内，且至少有9个与作物同步开花。野生茄子与栽培茄子的人工杂交产生了种子和可育的F1后代。套袋以排除传粉者的野生茄子花朵没有结果，人工自花授粉的坐果率很低。野生茄子伸出的柱头可能促进异花授粉。最有效的传粉者似乎是蜜蜂（Amegilla、Xylocopa Nomia和Heterotrigona属），也观察到它们在作物茄子上采集花粉。
结论：我们的研究结果表明，印度南部栽培茄子和野生茄子之间可能发生杂交。因此，作为风险评估过程的一部分，我们假设作物中的转基因可能传播到附近的野生茄子种群。

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印度南部茄子（茄属龙葵；茄科）中作物与野生种杂交的可能性。

The potential for crop to wild hybridization in eggplant (Solanum melongena; Solanaceae) in southern India.

作者信息

机构信息

出版信息

UNLABELLED

PREMISE OF THE STUDY

METHODS

KEY RESULTS

CONCLUSION

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