Ploidy Determination in Banana Hybrids through Stomatal Studies and Chloroplast Count
Reeba A. John *
Department of Fruit Science, Horticultural College and Research Institute, Tamil Nadu Agricultural University, Coimbatore-03, Tamil Nadu, India.
J. Auxcilia
Directorate of Extension Education, Tamil Nadu Agricultural University, Coimbatore-03, Tamil Nadu, India.
Ramajayam Devarajan
ICAR-Indian Institute of Soil and Water Conservation, Research Centre, Sunabeda-02, Odisha, India.
P. Irene Vethamoni
Horticultural College and Research Institute, TNAU, Coimbatore-03, Tamil Nadu, India.
I. Muthuvel
Department of Fruit Science, Horticultural College and Research Institute, Tamil Nadu Agricultural University, Coimbatore-03, Tamil Nadu, India.
Sanjay Chetry
Department of Fruit Science, Horticultural College and Research Institute, Tamil Nadu Agricultural University, Coimbatore-03, Tamil Nadu, India.
*Author to whom correspondence should be addressed.
Abstract
Stomata are probably a viable taxonomy distinguishing feature. The study of stomata characteristics of synthetic banana hybrids and their parentage has been carried out. Ploidy determination is essential in banana breeding programs to understand the genetic makeup of hybrid plants. The purpose of this study was to determine the ploidy level of hybrids in contrast with the properties of plant stomata in synthetic banana hybrids with those of their parent plants. Therefore, by examining components such as stomata location, number of epidermal cells, number of stomata cells, stomata length, width, area, intensity and density, as well as chloroplast count, it is possible to compare and contrast the traits of synthetic banana hybrids and their parentage which have different genomes. The entire mount approach was used to make an incision for the purpose of observing stomata. By characterising the stomata traits of the synthetic hybrids and their parentage, the results were then descriptively and qualitatively assessed. Three different locations on the abaxial of the leaf were taken for the determination. The samples were collected from close to the petiole (R1), middle (R2), and distal end (R3), stomata were observed using the replica method. Results showed that more number of stomata was observed in R2of leaf abaxial. The chloroplast count in pairs of stomatal guard cells from the accessions was also measured. The chloroplast density was determined in pairs of stomatal guard cells from the accessions. Based on morphological descriptions, it was observed that 16.66% of the accessions were diploid, 50% were triploid and 33.33% were tetraploid. When considering the chloroplast count, the accessions were categorized into groups, certain accessions classified as tetraploids, others as triploids, and diploids.
Keywords: Synthetic banana hybrids, taxonomy, ploidy, genome, stomata, chloroplast, abaxial