Abstract:
Coconut germplasm in Sri Lanka is classified into three distinct varieties: Tall, Dwarf, and Aurantiaca, each with distinct forms. The forms under the variety Aurantiaca exhibit intermediate characteristics between Tall and Dwarfregarding plant size and breeding behaviour, causing classification uncertainties. Though rare, intermediate types can be made into potential cultivars. The present study compared the intermediate coconut types; King coconut, Rathran-thembili, Bothal-thembili, Yellow semi-tall, Mirishena semi-tall, Bodiri, and two coconut hybrids; Red Dwarf×Tall and Brown Dwarf×Tall respect to Tall, Red Dwarf and Brown Dwarf as controls. Samples were collected from 5–7 trees per each
coconut form identified. Twenty-four morphological traits from the International Plant Genetic Resources Institute (IPGRI) descriptors, along with genotypic information from five microsatellite markers unique to coconut were used. Principal component and general linear models in Minitab were employed to analyse morphological data, while the shared allele method in Powermarker was utilized to cluster analysis of genotypic data. Clear differences were not observed for leaf, inflorescence, and fruit traits among the tested coconut forms. However, the stem and crown morphological traits were significantly different between Bothal-thembili and Tall, while it was similar to Dwarf. Two coconut hybrids and the Yellow semi-tall did not differ significantly from the Tall. In contrast, King Coconut, Rathran-thembili, and Bodiri showed intermediate stem and crown morphological traits, while Mirshena semi-tall revealed no apparent grouping concerning morphological traits. The four distinct groups identified from the cluster analysis showed slight variation in stem and crown morphology traits. Bothal-Thembili with Red Dwarf and Brown Dwarf formed one cluster, Yellow semi-tall, Mirishena semi-tall and hybrids formed the second cluster, Bodiri, King coconut, and Rathran-thembili formed the third cluster, while Tall
formed a separate cluster. A comprehensive and accurate understanding of the breeding behaviour along with the findings of this research is recommended to confirm and revise the existing coconut classification.
