Citrus tissue culture employing vegetative explants

Abstract

Citrus being a number one fruit of the world due to its high nutritional value, huge production of fruits and fruit products, the citrus industry may be considered a major fruit industry. Though citrus orchard area in India is comparable to USA, the produce is far less, while its export is nil. Biotechnology has played an outstanding role in boosting the citrus

industry, e.g., in Spain , which is now the biggest exporter of citrus fruit with the application of micrografting. Amongst the fruit trees, perhaps the maximum tissue culture research has been done in citrus during the past four decades, however, the results of practical value are meagre. The shortfalls in citrus tissue culture research and some advancements made in this direction along with bright prospects are highlighted, restricting the review to vegetative explants only. <br> Whilst utilization of nucellar embryogenesis is limited to rootstocks, the other aspects, like, regeneration and proliferation of shoot meristems measuring 200 μm in length - a global breakthrough - of two commercially important

scion species, <i>Citrus aurantifolia </i>and <i>C</i>. <i>sinensis </i>and an important rootstock, <i>C</i>. <i>limonia, </i>improvement of micrografting technique, cloning of the same two scion species as well as some Indian rootstock species, employing nodal stem segments of mature trees, of immense practical value have been elaborated. A rare phenomenon of shift in the morphogenetic pattern of differentiation from shoot bud differentiation to embryoid formation occurred during the long-term culture of stem callus of C. <i>grandis. </i>Stem callus-regenerated plants of C. <i>aurantifolia, </i>C. <i>sinensis </i>and C. <i>grandis </i>showed variation in their ploidy

<span style="font-size:14.0pt;line-height:115%;font-family:" times="" new="" roman";="" mso-fareast-font-family:"times="" roman";color:black;mso-ansi-language:en-in;="" mso-fareast-language:en-in;mso-bidi-language:hi"="" lang="EN-IN">levels and a somaclonal variant of C. <i>sinensis, </i>which produced seedless fruits was isolated. Tailoring of rooting in microshoots to a tap root-like system by changing the inorganic salt composition of the rooting medium, resulting in 100% transplant success, and germplasm preservation through normal growth culture of shoots of C. <i>grandis </i>without loss of regeneration capacity during 31 years, observed so far, are some other significant results. Plants of C. <i>aurantifolia </i>and C.<i>sinensis </i>raised from shoot meristem and micrografting were grown in a nethouse and those from nodal stem segments in the field along with the <i>in vitro-</i>raised<i> </i>plants of rootstocks, namely, C. <i>jambhiri, </i>C. <i>karna </i>and C. <i>limonia. </i>All the plants showed normal healthy growth. Significantly enough, the meristem regenerated plants of C. <i>aurantifolia </i>attained the reproductive phase just in 1 year of transplantation to soil similar to those raised from nodal stem segments of mature trees, which also produced normal fruits in the subsequent year while growing under field conditions. Thus, a significant fundamental concept of a maturity factor, carried over through as small a shoot meristem as 200μm in length to cloned plants has been demonstrated. The concept is of far-reaching significance in citrus industry besides production of pathogen-free orchards.</span>