GENETIC DIVERSITY STUDIES IN MAKOI (Solanum nigrum L.) GENOTYPES Thesis submitted in part fulfillment of the requirement for the degree of Doctor of Philosophy in Horticulture (Spices, Plantation, Medicinal and Aromatic crops) to Tamil Nadu Agricultural University, Coimbatore – 641 003 By NANDHINI, T. M.Sc., (Hort.) ID. No. 10- 633- 005 DEPARTMENT OF MEDICINAL AND AROMATIC CROPS HORTICULTURAL COLLEGE AND RESEARCH INSTITUTE TAMIL NADU AGRICULTURAL UNIVERSITY COIMBATORE - 641 003 2013 Acknowledgement I bow my head with all reverence to the Lord, who kindly imbued the energy and enthusiasm through ramifying paths of thick and thin of my efforts. With deep respect and esteem regents, I owe my inexpressible personal indebtedness to my chairman Dr.P.Paramaguru, Professor and Head, Coconut Research Station, Veppankulam for his exemplary guidance, constant encouragement and support throughout the course of the study. I am highly obliged to the members of the advisory Committee Dr. R.M.Viyakumar, Professor and Head, Department of Medicinal and Aromatic crops, HC & RI, Coimbatore. Dr. S.Robin, Professor and Head, Department of Rice, CPBG, Coimbatore, and Dr. R.Kasthuri, Professor (Biochemistry), Coimbatore for their valuable and constant encouragement offered during the course of study. I offer my sincere thanks to Dr.P.Jansirani, Professor and Head, Department of Spices and Plantation crops, HC & RI, TNAU, Coimbatore for her valuable advices during my course work and Research. I deem it is a special privilege to put forth my sincere thank to Dr.Mariappan, Dean Horticulture and Dean Former Dean Dr. N. Kumar, Horticultural College and Research Institute, Tamil Nadu Agricultural University, Coimbatore. I enroll my deep sense of gratitude to Dr. Natarajan, Professor of Horticulture, for his instinctive encouragement, help and guidance. I am happy to express my immense thanks to Dr. Durga Devi, Dr. L.Nalina, Dr. Chitra, Dr. M. Ganga, Dr. Suganthy, Dr. Mohanalakshmi, Dr. Meena, Dr. P. Jegadheswari. and Dr. Saravanan for their encouragement, care, timely help and proper guidance during the course of my study. I am very thankful to Dr.Thondaiman, Mr.Ramchander, Dr.Ashok, Dr.Krishnamoorthy, Dr.Mahalingam, Dr.Anandhi, Dr.Karthikeyan, Dr.Sugapriya and Mr.Swaminathan for their timely help rendered for accomplishment of my thesis work. I wish to express the sense of love, heartfelt thanks and affection to my dear friends Mekala, Priya, Ramya, Narmi, Goms akka, Janani, Ranchana, Vaidehi akka, Selva, Allirani akka, Dhivya, Tamil, Deepa, Sajitha akka, Anushiya, Visalakshi akka, Karthi anna, MuthuKumar, Jagadesh, Rajamanigam sir, Ravanachander, Vasu sir, Suresh sir, Ganesh and Dinesh sir for their unreserved help, constant encouragement and extraordinary support have helped me to succeed in all my endeavours. I express my sincere thanks to my beloved Juniors Ammaan, Sumitha, Arthi, Sangeetha, Imbarasi, Princy, Murali, Mani, Anok, Govind and Suresh for their constant motivation and affection during these years of my studies. My special thanks to farm workers of Medicinal plant Unit for their assiduous help rendered in carrying out the research work. Mere words cannot express the gratitude owe to my lovable husband Mr.S.Mohandass, who stood by me at tough times and whose persuasion, patience and encouragement was the inspiration of this research work. Words are ineffable to express my indebtedness to my loving father (Mr.M.Thirumoorthy and Mr.R. Sunderajan), mother (Mrs.T.Ponnamaal and S.Subulakshmi), brothers Dinesh and Jai for their insisting inspiration, constant patting and everlasting love bestowed on me at every stage of my endeavour. (T.Nandhini) ABSTRACT GENETIC DIVERSITY STUDIES IN MAKOI (Solanum nigrum L.) GENOTYPES By T. Nandhini, M.Sc., (Hort) Degree : Doctor of Philosophy in Horticulture Chairman : Dr. P. Paramaguru, Ph.D., Professor and Head, Coconut Research Station, Veppankulam - 614 906. 2013 An investigation was carried out with 45 makoi (Solanum nigrum L.) genotypes at the Horticultural College and Research Institute, Coimbatore during 2011 - 2013 to study the extent of variability, genetic divergence through morphological characters and molecular markers and association among yield and its component characters. Morphological characterization of 45 genotypes based on 14 IPGRI descriptors was done and the cluster analysis grouped the genotypes into four major clusters. Ploidy analysis and DNA barcoding analysis revealed that TN Sn 10 was S.nigrum L. (hexaploid) and TN Sn 30, TN Sn 32, TN Sn 44 and TN Sn 47 were S.villosum Mill. (tetraploids) while genotypes TN Sn 08, TN Sn 12, TN Sn 23, TN Sn 38, TN Sn 52 and TN Sn 53 were S.americanum Mill.(diploids). The genotypes TN Sn 10 and TN Sn 30 recorded highest herbage and alkaloid yield and can be used in breeding programme to get high alkaloid yielding varieties. Though TNSn 19 and TN Sn 22 recorded lesser yield than TN Sn 10 and TN Sn 30, they showed high nutritive value and palatable characters and hence they can be used for evolving varieties that can be used as green leafy vegetable. In Mahalanobis D2 analysis, the genotypes were grouped into eight clusters. Among the eight clusters, the cluster V was the largest with 15 genotypes followed by cluster I with 11 genotypes. The cluster IV and III has maximum inter cluster distance which showed maximum divergence between the two clusters. Fresh and dry herbage yield per plant contributed maximum towards divergence. The genetic relationship and variation of 45 accessions were examined by SSR analysis using 10 primer pairs. A total of 22 fragments from ten SSR markers were formed of which seven primers were polymorphic. PIC was highest for the SSR primers STWIN 12 G (0.698). The Jaccard‟s similarity coefficient ranged from 0.36 to 1.00. Based on the banding pattern, the cluster analysis was done using UPGMA and the dendrogram was constructed which resulted in eight clusters. In all the three species, the maximum phenotypic and genotypic coefficient of variations was observed for protein content, dry herbage yield per plant, fresh herbage yield per plant. Heritability estimates were higher for quality characters than the biometric characters. Ascorbic acid content, protein content, iron content and days to flower bud initiation recorded high estimates of heritability coupled with high genetic advance. Correlation studies indicated that total alkaloid content expressed highly significant and positive correlation withdry herbage yield, crude fibre, number of leaves and number of primary branches. It also had significant negative association with protein content, number of berries per plantand days to fifty per cent flowering. In a nutshell, wide diversity existed among the genotypes in morphological and biochemical characters and are beneficial for developing superior varieties through selection or hybridisation programme. Correlation revealed earlier flowering with lesser berry yield can be considered for higher herbage yield. CONTENTS CHAPTER TITLE PAGE NO. 1 INTRODUCTION 2 REVIEW OF LITERATURE 3 MATERIALS AND METHODS 4 EXPERIMENTAL RESULTS 5 DISCUSSION 6 SUMMARY REFERENCES PLATES ANNEXURE PUBLICATIONS LIST OF TABLES Table No. Title Page No. 1. List of forty five Genotypes 2. List of morphological characters observed List of morphologically distinct genotype used for ploidy and barcode 3. analysis 4. List of SSR primer pairs used in the study 5. Morphological characterization of Genotypes Variations in stomatal, pollen, flower and berry characters in distinct 6.a. Genotypes 6.b. List of genotypes subjected to DNA barcode analysis Analysis of variance for different characters of Solanum nigrum L. 7. genotypes Analysis of variance for different characters of Solanum villosum Mill. 8. genotypes Analysis of variance for different characters of Solanum nigrum Mill. 9. genotypes 10. Mean performance of genotypes for plant height (cm) 11. Mean performance of genotypes for plant spread (N-S) (cm) 12. Mean performance of genotypes for plant spread (E-W) (cm) 13. Mean performance of genotypes for number of primary branches 14. Mean performance of genotypes for stem girth (cm) 15. Mean performance of genotypes for number of leaves per plant 16. Mean performance of genotypes for leaf length (cm) Table No. Title Page No. 10. Mean performance of genotypes for leaf breadth (cm) 11. Mean performance of genotypes on days to flower bud initiation 12. Mean performance of genotypes for days to fifty per cent flowering 13. Mean performance of genotypes for number of berries per plant 14. Mean performance of genotypes for fresh herbage yield per plant (g) 22. Mean performance of genotypes for dry herbage yield per plant (g) 23. Mean performance of genotypes for fresh herbage yield per plot (Kg) 24. Mean performance of genotypes for dry herbage yield per plot (Kg) Mean performance of genotypes for Fresh herbage yield per hectare (t) 25. (estimated) Mean performance of genotypes for dry herbage yield per hactare (t) 26. (estimated) 27. Mean performance of genotypes for total leaf area (cm2) per plant 28. Mean performance of genotypes for total chlorophyll (mg g-1) 29. Mean performance of genotypes for total soluble proteins (mg g-1) 30. Mean performance of genotypes for total phenols (mg g-1) 31. Mean performance of genotypes for total alkaloid content (%) 32. Mean performance of genotypes for protein content (mg 100g-1) 33. Mean performance of genotypes for crude fibre (%) 34. Mean performance of genotypes for iron content (mg 100g-1) Table No. Title Page No. 35. Mean performance of genotypes for ascorbic acid (mg g-1) 36. Organoleptic evaluation of high yielding genotypes 37. Distribution of genotypes into different clusters based on D2 statistics 38. Inter and intra cluster D2 and D (with in parentheses) values 39. Relative contribution of eleven agronomic traits towards divergence 40. Cluster Mean values for eleven characters SSR primers showing total and polymorphic amplicons generated pattern for 41. 45 genotypes 42. Jaccard‟s similarity coefficient among genotypes from SSR data 43. Clustering of 45 genotypes based on SSR markers 44. Estimates of variability and genetic parameters of Solanum nigrum L. genotypes Estimates of variability and genetic parameters of Solanum americanum Mill. 45. genotypes Estimates of variability and genetic parameters of Solanum villosum Mill. 46. genotypes Estimates of simple correlation coefficients among 12 biometric traits in 47. Solanum nigrum L. genotypes Estimates of simple correlation coefficients among 12 biometric traits in 48. Solanum americanum Mill. genotypes Estimates of simple correlation coefficients among 12 biometric traits in 49. Solanum villosum Mill. genotypes LIST OF FIGURES Figure Title Page No. No. 1. Diversity in growth habit and branching 2. Diversity in stem and leaf pubescence 3. Diversity in stem color 4. Diversity in berry color 5. Dendrogram based on morphological characters of forty five genotypes Phylogenetic analysis of the ITS sequences of the Solanum species using 6. MEGA5 software 7. Fresh herbage yield per hectare of high yielding genotypes 8. Biochemical contents in high yielding genotypes 9. Organoleptic evaluation of high yielding genotypes 10. Relative contribution of characters towards divergence in makoi genotypes 11. Dendrogram based on SSR markers of forty five genotypes