Sugarcane×bamboo hybrids

Raghavan, T. S. (1952) Sugarcane×bamboo hybrids Nature, 170 (4321). pp. 329-330. ISSN 0028-0836

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Official URL: http://www.nature.com/nature/journal/v170/n4321/ab...

Related URL: http://dx.doi.org/10.1038/170329b0

Abstract

Sugarcane×bamboo hybrids were first reported from this Institute by Venkatraman in 1937. In spite of the absence of easily recognizable bamboo characters in the seedlings, Kutty Amma and Ekambaram proved by a critical study of the anatomy and morphology of the seedlings that they were genuine hybrids. This corroborated Janaki Animal's conclusion arrived at earlier, on the basis of somatic chromosome counts. In these bamboo crosses the pistillate parents employed were the two male sterile Java canes, POJ.213 and POJ.2725. These were themselves complicated bispecies hybrids-POJ.213, involving S. officinarum and S. barberi; POJ.2725, a much more complicated hybrid between a number of officinarumand Java spontaneum (Glagah). It was felt desirable to repeat the cross, using a simple officinarum as the female parent. All the varieties of officinarum so far examined show 2n=80. For this purpose, S. officinarum var. Vellai (a local form) was employed and two seedlings were obtained. Examining the mother and the two seedlings derived therefrom through pollination with bamboo, one of the seedlings is very thick, much thicker than the mother, more vigorous and taller. The other is much thinner. Examination of the root-tips revealed a somatic chromosome number of 116 in the thick seedling and 86 in the thin. It is believed that the thick seedling has come into being through the fusion of an unreduced egg of S. officinarum (that is, 2n=80) with a normal sperm of Bambusa arundanacea (n=36). The thin seedling has presumably been formed by the union of an officinarum egg having neither the haploid nor the diploid number, with the sperm of bamboo. Functioning of diploid eggs in interspecific and intergeneric crosses, involving Saccharum, especially the species officinarum as one of the parents, is not an infrequent phenomenon. Almost all interspecific hybrids between S. officinarum×S. spontaneum have come into being through the operation of the unreduced egg of officinarum. Some cases of intergeneric hybrids are known where both the haploid and diploid eggs have functioned in the same cross. The latest known case is that of S. officinarum var. Vellai×Narenga (2n=30), where hybrids showing 2n=95 and 2n=55 have been obtained (Raghavan unpublished). Functioning of egg with unexpected chromosome number in the formation of sugarcane hybrids is less common. While one such case is known involving a bicomplex hybrid as the pistillate parent, recent investigations have shown that this feature is shared by simple officinarum also. For Co.453, which is a cross between S. officinarum var. Zw. cheribon (2n=80) and Co.285 (2n=112), showed a chromosome number of 124, indicating that Zw. cheribon has contributed through its egg neither the haploid number (40) nor its unreduced number (80) but an unexpected number, that is, 68. This report is of interest in three particulars. First, instead of complicated bi-species or tri-species, derivatives such as POJ. or Co. canes, a simple officinarum has been employed as the pistil parent. Secondly, viable embryos are obtained from fertilization of not only haploid gametes, as reported by Janaki Ammal, but they are also formed from fertilization of unreduced eggs by normal sperms. This brings these bamboo hybrids into a line with Saccharum×Sorghum hybrids, in the formation of which also both reduced and unreduced eggs have been known to function. Thirdly, the operation of an egg with unexpected chromosome number in the cross has also been vouched for.

Item Type:Article
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ID Code:35846
Deposited On:12 Apr 2011 08:01
Last Modified:12 Apr 2011 08:01

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