Seed germination and seedling establishment of Neotropical dry forest species in response to temperature and light conditions

Benigno González-Rivas; Mulualem Tigabu; Guillermo Castro-Marín; Per Christer Odén

doi:10.1007/s11676-009-0018-y

Journal of Forestry Research ›› 2009, Vol. 20 ›› Issue (2) : 99 -104. DOI: 10.1007/s11676-009-0018-y

Research Paper

Seed germination and seedling establishment of Neotropical dry forest species in response to temperature and light conditions

Author information +

History +

PDF

Abstract

A study was conducted to examine the germination requirements of Cedrela odorata, Guaiacum sanctum and Calycophyllum candidissimum seeds, and the effect of light intensity on survival and growth of C. odorata and G. sanctum seedlings planted on open, partially-open and beneath the canopy of a dry forest in Nicaragua. The results show that germination of C. candidissimum seeds was significantly higher in light than darkness at constant temperatures ranging from 20–35°C. Both C. odorata and G. sanctum seeds germinated in light and darkness to a varying extent, and the optimal germination temperature was around 20–25°C. Alternating temperature regimes did not improve germination. Survival of G. sanctum seedlings was 70% beneath the canopy and 80% in the open, and its relative growth rate in collar diameter was 1.88 mm/month in the open and 1.42 mm/month in the understory. Survival was generally poor for C. odorata, particularly in the understory. We concluded that light is an absolute requirement for the germination of C. candidissimum seeds while germination of C. odorata and G. sanctum seeds are more sensitive to temperature. Owing to its high survival rate on open site, G. sanctum could serve as a candidate species for reforestation of degraded sites.

Keywords

canopy cover / seed germination / Nicaragua / photoblastic seed / survival rate / restoration / Cedrela odorata / Guaiacum sanctum / Calycophyllum candidissimum

Cite this article

Download citation ▾

Benigno González-Rivas, Mulualem Tigabu, Guillermo Castro-Marín, Per Christer Odén. Seed germination and seedling establishment of Neotropical dry forest species in response to temperature and light conditions. Journal of Forestry Research, 2009, 20(2): 99-104 DOI:10.1007/s11676-009-0018-y

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Bullock J.M.. Fenner M.. Gaps and seedling colonization. Seeds: The Ecology of Regeneration in Plant Communities. 2000, Wallingford: CABI Publishing, 375 395

[2]	Ekstam B., Johannesson R., Milbert P.. The effect of light and number of diurnal temperature fluctuations on germinations of Phragmites australis. Seed Science Research, 1999, 9: 165-170.

[3]	Gerhardt K.. Germination and development of sown mahogany (Switenia macrophylla King) in secondary tropical dry forest habitats in Costa Rica. Journal of Tropical Ecology, 1996, 12: 275-289.

[4]	Gerhardt K.. Effect of root competition and canopy openness on survival and growth of tree seedlings in a tropical seasonally dry forest. Forest Ecology Management, 1996, 82: 33-48.

[5]	Gerhardt K.. Leaf defoliation of tropical dry forest tree seedlings implications for survival and growth. Trees, 1998, 13: 88-95.

[6]	González-Rivas B.. Tree species diversity and Regeneration of Tropical Dry Forests in Nicaragua. 2005, Umeå, Sweden: Swedish University of Agricultural Sciences

[7]	Goosem S.P., Tucker N.I.J.. Repairing the Rainforest- Theory and Practice of Rainforest. Re-establishment in North Queenslands’s Wet Tropics. 1995, Cairns: Management Authority

[8]	Guariguata M.R.. Seed and seedling ecology of tree species in Neotropical secondary forest: Management Implications. Ecological Application, 2000, 10: 145-154.

[9]	Guariguata M.R., Ostertag R.. Neotropical secondary forest succession: changes in structural and functional characteristics. Forest Ecology Management, 2001, 148: 185-206.

[10]	Janzen D.H.. Perrow M.R., Davy A.J.. Tropical dry forest: Area de Conservación Guanacaste, northwestern Costa Rica. Handbook of Ecological Restoration, Vol. 2 Restoration in Practice. 2002, Cambridge: Cambridge University Press, 559 583

[11]	Khurana E., Singh J.S.. Ecology of seed and seedling growth for conservation and restoration of tropical dry forest: a review. Environ mental Conservation, 2001, 28: 39-52.

[12]	Kitajima K., Fenner M.. Fenner M.. Ecology of Seedling Regeneration. Seeds: The Ecology of Regeneration in Plant Communities. 2000, Wallingford: CABI Publishing, 331 359

[13]	Lamb D., Parrota J.A., Keenan R., Tucker N.I.J.. Laurance W.F., Bierregaard R.O.. Rejoining habitat remnants: restoring degraded rainforest lands. Tropical Forest Remnants: Ecology, Management and Conservation of Fragmented Communities. 1997, Chicago: University of Chicago Press, 366 385

[14]	Lemenih M., Gidyelew T., Teketay D.. Effects of canopy cover and understory environment of tree plantations on richness, density and size of colonizing woody species in southern Ethiopia. Forest Ecology Management, 2004, 194: 1-10.

[15]	Lugo A.E.. Comparison of tropical tree plantations and with secondary forest of similar age. Ecological Monograph, 1992, 62: 1-41.

[16]	Marín WA, Flores EM. 1999. Guaiacum sanctum L. Escuela de Biología de Costa Rica, Universidad de Costa Rica and Academia Nacional de Ciencias de Costa Rica.

[17]	Pearson T.R.H., Burslem D.F.R., Mullins C.E., Dalling J.W.. Germination ecology of Neotropical Pioneers: interacting effects of environmental conditions and seed size. Ecology, 2002, 83: 2798-2807.

[18]	Pearson T.R.H., Burslem D.F.R., Mullins C.E., Dalling J.W.. Functional significance of photoblastic germination in Neotropical pioneer trees: a seed’s eye view. Functional Ecology, 2003, 17: 394-402.

[19]	Pons T.L.. Fenner M.. Seed responses to light. Seeds: The Ecology of Regeneration in Plant Communities. 2000, Wallingford: CAB International, 237 260

[20]	Probert R.J.. Fenner M.. The role of temperature in the regulation of seed dormancy and germination. Seeds: The Ecology of Regeneration in Plant Communities. 2000, Wallingford: CAB International, 261 292

[21]	Ray G.J., Brown B.J.. Restoring Caribbean dry forests: evaluation of tree propagation techniques. Restoration Ecology, 1995, 3: 86-94.

[22]	Rincon E., Huante P.. Growth response of tropical deciduous tree seedlings to contrasting light conditions. Trees, 1993, 7: 202-207.

[23]	Rivera G., Borchert R.. Induction of flowering in tropical trees by a 30-min reduction in photoperiod: evidence from field observations and herbarium collections. Tree Physiology, 2001, 21: 201-212.

[24]	Sabogal C., Valerio L.. Dallmeier F., Comiskey J.A.. Forest Composition, Structure and Regeneration in a dry forest of the Nicaraguan Pacific Coast. Forest Biodiversity in North Central and South America, and the Caribbean: Research and Monitoring. 1998, New York: UNESCO., 187 212

[25]	Salas JB. 1993. Arboles de Nicaragua. Instituto Nicaragüense de Recursos Naturales y del Ambiente. — Servicio Forestal Nacional. Managua, Nicaragua.

[26]	Scariot A.. Seedling mortality by litterfall in Amazonian Forest Fragments. Biotropica, 2000, 32: 662-669.

[27]	Sherman P.M.. Effects of land crabs on seedling densities and distributions in a mainland Neotropical rainforest. Journal of Tropical Ecology, 2002, 18: 67-89.

[28]	Teketay D.. The effect of temperature on the germination of Moringa stenopetala, a multipurpose tree. Tropical Ecology, 1995, 36: 49-57.

[29]	Teketay D.. The impact of clearing and conversion of dry Afromontane forests into arable land on the composition and density of soil seed banks. Acta Oecologica, 1997, 18: 557-573.

[30]	Teketay D.. Soil seed banks at an abandoned Afromontane arable site. Feddes Repertorium, 1998, 109: 161-174.

[31]	Teketay D.. Environmental factors that control the germination of five Solanum species from Ethiopia. Tropical Ecology, 1998, 39: 79-87.

[32]	Teketay D., Granström A.. Soil seed bank in dry Afromontane forests of Ethiopia. Journal of Vegetation Science, 1995, 6: 777-786.

[33]	Teketay D., Granström A.. Germination ecology of forest species from the highlands of Ethiopia. Journal of Tropical Ecology, 1997, 14: 793-803.

[34]	Thomlinson J.R., Serrano M.I., del López M., López T., Aide T.M., Zimmerman J.K.. Land-use dynamics in a post-agriculture Puerto Rican landscape (1936–1988). Biotropica, 1996, 28: 525-536.

[35]	Thompson K.. Fennner M.. The Functional Ecology of Soil Seed Banks. Seeds: The Ecology of Regeneration in Plant Communities. 2000, Wallingford: CAB International, 215 235

[36]	Thompson K., Grime J.P.. A Comparative study of germination responses to diurnally-fluctuating temperature. Journal of Applied Ecology, 1983, 20: 141-156.

[37]	Tigabu M., Odén P.C.. Effect of scarification, gibberellic acid and temperature on seed germination of two multipurpose Albizia species from Ethiopia. Seed Science and Technology, 2001, 29: 11-20.

[38]	Vázquez-Yanes C., Orozco-Segovia A.. Effects of litter from a tropical rain forest on tree seed germination and establishment under controlled conditions. Tree Physiology, 1992, 11: 391-400.

[39]	Vázquez-Yanes C., Orozco-Segovia A., Rincón E., Sánchez-Coronado M.E., Huante R., Toledo J.R., Barradas U.L.. Light beneath the litter in a tropical forest: effect on seed germination. Ecology, 1990, 71: 1952-1958.

[40]	Wijdeven S.M.J., Kuzee M.. Seed availability as a limiting factor in forest recovery processes in Costa Rica. Restoration Ecology, 2000, 8: 414-424.

[41]	Zar J.. Biostatistical Analysis. 1996, New Jersey: Prentice - Hall Inc.

[42]	Zida D., Tigabu M., Sawadogo L., Odén P.C.. Germination requirements of seeds of four woody species from the Sudanian savanna in Burkina Faso, West Africa. Seed Science and Technology, 2005, 33: 581-593.

[43]	Zimmerman J.K., Pascarella J.B., Aide T.M.. Barriers to forest regeneration in an abandoned pasture in Puerto Rico. Restoration Ecology, 2000, 8: 350-360.