Pollen pattern dispersal in seedling seed orchard (SSO) is an essential part of a tree-improvement program. Two SSOs of Acacia mangium in South Kalimantan and South Sumatra that represent similar resources in different environments were used in this study.  Genotypes of all trees and seeds from a subset of 10 mother trees in each orchard were determined for 12 microsatellite loci, and parentage analysis was carried out. The results shows that the pollen dispersal pattern in both SSOs decrease with distance from mother tree. Patterns of pollen dispersal, dispersal distance and cumulative frequency of pollen dispersal distance were similar in both SSOs. Random pollen dispersal were found in both SSOs. About 80% of all crosses were found within a 40-m distance range with the most frequent pollination distance between mother tree and male male parents was 0-10 m. No self-pollinated seed was detected. Application of all these aspects found in this study such as random pollen dispersal and the effective pollen dispersal distance can be useful for establishing seedling seed orchard, clonal seed orchard and in other tree improvement activities of A. mangium.

Acacia mangium; seedling seed orchard; pollen dispersal; effective distance; selfing ratio

Austerlitz, F., C.W. Dick, C. Dutech, E.K. Klein, S. Oddou-Muratorio, P.E. Smouse, and V.L. Sork. 2004. Using genetic markers to estimate the pollen dispersal cur ve. Molecular Ecology 13:937-954.

Botstein, D., R.L. White, M. Skolnick and R.W. Davis. 1980. Construction of a genetic linkage map in man using restriction fragment length polymorphism. American Journal of Human Genetics 32:314-331.

Butcher, P.A., S. Decroocq, Y. Gray, and G.F. Moran. 2000. Development, inheritance and cross-species amplification of microsatellite markers from Acacia mangium. Theor Appl Genet 101:1282-1290.

Butcher, P. 2002. Molecular breeding of tropical trees. in Rimbawanto, A. and Susanto, M (Eds.). Proceeding of the International Conference on Advances in Genetic Improvement of Tropical Tree Species, 1-3 October 2002. Yogyakarta, Indonesia. Centre for Forest Biotechnology and Tree Improvement, Yogyakarta.

Butcher, P., C. Harwood, and T. H. Quang. 2004. Studies of mating systems in seed stands sug gest possible causes of variable outcrossing rates in natural populations of Acacia mangium. Forest Genetics 11 (3-4):303-309.

Casiva, P.V., J.C. Vilardi, A. M. Cialdella, and B.O.Saidman. 2004. Mating system and population structure of Acacia aroma and A. macracantha (Fabaceae). American Journal of Botany 91 (1):58-64.

Coantes, D.J., G. Tischler, and J.A. McComb.2006. Genetic variation and the mating system in the rare Acacia sciophanes compared with its common sister species Acacia anfractuosa (Mimosaceae). Conservation Genetics 7:931-944.

Don, R.H., P.T. Cox, B.J. Wainwright, K. Baker and J.S. Mattick. 1991.'Touchdown' PCR to circumvent spurious priming during gene amplification. Nucleic Acids Research 19:4008.

Dow, B.D. and M.V. Ashley. 1996. Microsatellite analysis of seed dispersal and parentage of saplings in bur oak, Quercus macrocarpa. Molecular Ecology 5:615-627.

George, N., M. Byrne, and G. Yan. 2008. Mixed mating with preferential outcrossing in Acacia saligna (Labill.) H. Wendl. (Leguminosae:Mimosoideae). Silvae Genetica 57 (3):139-145.

Glaubitz, J.C., and G.F. Moran. 2000. Genetic tools: the use of biochemical and molecular markers, In Young, A., D. Boshier and T. Boyle. (Eds.). Forest Conservation Genetics, Principles and Practice. CSIRO Publishing. Australia.

Hancock, J.M. 1999. Microsatellite and Other Simple Sequences: Genomic Context and Mutational Mechanisms, In Goldstein, D.B and C. Schlotterres (Eds.). Microsatellites, Evolution and Applications. Oxford University Press. New York.

Hasegawa, Y., Y. Suyama, and K. Sewa. 2009. Pollen donor composition during the early phases of reproduction revealed by DNAgenotyping of pollen grains and seeds of Castanea crenata. New Phytologist 182:994 - 1002.

Hashimoto, K., S. Kurinobu, and H. Suhendi. 1996. Establishment of seed sources of tropical tree species in Indonesia, In: Dieters, M.J., A.C. Matheson, D.G. Nikles, C.E. Harwood, S.M. Walker (Eds) Tree improvement for sustainable tropical forestry. Proceeding of the QFRI-IUFRO Conference, Caloundra, Australia, pp370- 371.

Harwood, C.E., H.H. Thinh, T.H. Quang, P.A. Butcher, and E.R. Williams. 2004. The effect of inbreeding in early growth of Acacia mangium in Vietnam. Silvae Genetica 53 (2):65-69.

Hearne, C.M., S. Ghosh and J.A. Todd. 1992. Microsatellites for linkage analysis of genetic traits. Trends in Ecology and Evolution 8:288-294.

Isoda, K., V. Yuskianti, and A. Rimbawanto. 2002. Verification of full-sib relationship of seeds within a pod of Acacia mangium using parentage analysis by microsatellite markers in Rimbawanto, A. and Susanto, M (Eds.). Proceeding of the International Conference on Advances in Genetic Improvement of Tropical Tree Species, 1-3 October 2002. Yogyakarta, Indonesia. Centre for Forest Biotechnology and Tree Improvement, Yogyakarta.

Kalinowski, S.T., M.L. Taper, and T.C. Marshall. 2007. Revising how the computer program cervus accomodates genotyping error increases success in paternity assignment. Molecular Ecology 16:1099-1106.

Kawasaki, H., S. Kurinobu and B. Leksono. 2000. Manual of the “Design.exe” for making an experimental design of family plots on seedling seed orchards. FTIP-P2-No.17. Yogyakarta.

Kurinobu, S., A. Nirsatmanto, M. Susanto. 1994a. General information of seed source establishment of Acacia mangium in South Kalimantan (Fiscal year 1993/1994). FTIP No. 22. Yogyakarta.

Latouche-Halle, C., A. Ramboer, E. Bandou, H. Caron, and A. Kremer. 2004. Long-distance pollen flow and tolerance to selfing in a neotropical tree species. Molecular Ecology 13:1055-1064.

Mandal, A.K., and R.A. Ennos. 1995. Mating system analysis in a natural population of Acacia nilotica subspecies kraussiana. Forest Ecology and Management 79:235-240.

Marshall, T.C., J. Slate, L.E.B. Kruuk and J.M. Pemberton. 1998. Statistical confidence for likelihood-based paternity inference in natural populations. Molecular Ecology 7:639-655.

Moran, G.F., O. Muona, and J.C. Bell. 1989a. Acacia mangium: a tropical forest tree of the coastal lowlands with low genetic diversity. Evolution 43 (1):231-235.

Moran, G.F., O. Muona, and J.C. Bell. 1989b. Breeding systems and genetic diversity in Acacia auriculiformis and A. crassicarpa. Biotropica 21 (3):250-256.

Millar, M.A., M. Byrne, I. Nuberg, and M. Sedgley. 2008. High outcrossing and random pollen dispersal in a planted stand of Acacia saligna subsp. saligna revealed by paternity analysis using microsatellites. Tree genetics & Genomes 4:367-377.

Nei, M. 1987. Molecular evolutionary genetics. Columbia University Press, New York.

Nirsatmanto, A. 2005. Study on statistical genetic analysis, and the application to the breeding in Acacia mangium. Doctoral thesis. Kyushu University, Japan, pp101.

Piotti, A., S. Leonardi, P. Piovani, M. Scalfi and P. Menozzi. 2009. Spruce colonization at treeline: where do those seeds come from?. Heredity 103:136-145.

Richards, A.J. 1997. Plant Breeding Systems Second Edition. Chapman & Hall. London, Weinheim, New York, Tokyo, Melbourne, Madras.

Robledo-Arnuncio, J.J., and L. Gil. 2005. Pattern of pollen dispersal in a small population of Pinus sylvestris L. revealed by total-exclusion paternity analysis. Heredity 94:13-22.

Sedgley, M., C.V. Khen, R.M. Smith and J. Harbard. 1991. Insect visitors to flowering branches of Acacia mangium and Acacia auriculiformis. In 'Breeding Technologies for Tropical Acacias. Edited by L.T. Carron and K.M. Aken. ACIAR Proceedings No.37. Canberra.

Shiraishi, S. and Watanabe, A. 1995. Identification of chloroplast genome between Pinus densiflora SIEB. EtZUCC. and P. thunbergii PARL. Based on the polymorphism in rbcL. Gene. J.Jap. For. Soc. 77:429-436.

Timyan, J.C. 1999. Management plan for improved tree seed production from orchards and progeny/provenance trials in Haiti. Pan American D evelopment Foundation/PLUS Project 27, Delmas 31, Port-au-prince, Haiti. Document prepared under USAID contract No. 521-A-00-95-0030-00. 37 pp.

Tabbener H.E., and J.E. Cottrell. 2003. The use of PCR based DNA markers to study the paternty of poplar seedlings. Forest Ecology and Management 179:363-379.

Turner, M.E., J.C. Stephens, and W.W. Anderson.1982. Homozygosity and patch structure in plant populations as a result of nearest- neighbor pollination. Proc. Natl. Acad. Sci.79:203-207.