Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-11T09:47:58.815Z Has data issue: false hasContentIssue false
  • English
  • Français

Fire, growth and survivorship in a Neotropical savanna grass Andropogon semiberbis in Venezuela

Published online by Cambridge University Press:  10 July 2009

Juan F. Silva  and
Fernando Castro
Juan F. Silva
Affiliation:
Centro de Investigaciones Ecologicas de los Andes Tropicales (CIELAT), Departamento de Biologia, Facultad de Ciencias, Universidad de los Andes, Merida, Venezuela
Fernando Castro
Affiliation:
Centro de Investigaciones Ecologicas de los Andes Tropicales (CIELAT), Departamento de Biologia, Facultad de Ciencias, Universidad de los Andes, Merida, Venezuela
Get access Rights & Permissions [Opens in a new window]

Abstract

This study was conducted in a woodland savanna in western Venezuela exclosed from grazing and burnt once a year towards the end of the dry season. Mean annual rainfall is 1500 mm, with a strong seasonality.

Two cohorts of seedlings of Andropogon semiberbis were tagged and monitored for up to three years. Several variables such as survivorship, plant size, seedling density, fire damage and distance to the nearest adult were measured or estimated. Two burning experiments to measure survivorship before and after fire, and two seedling-growth experiments to assess competitive interference from adult plants of three grass species were performed.

The highest mortality takes place during the dry season and is due to fire. This decreases as the plants get bigger due to increasing structural complexity of the clump by growth which gives added protection to the meristems. Other mortality factors such as desiccation, uprooting and shading seem to be important during the wet season, when mortality rate is relatively constant. Survivorship during the first year and after three years is strongly correlated to the size attained by the end of the first growing season.

Seedling densities are rather low and do not seem to play any role in survivorship in this population. Adult interference with seedling growth decreases with distance and seems to be due to root competition, although there is a tendency toward increased foliage interference related to the canopy structure of adult plants.

Keywords

densityfiregrassesNeotropicsplan demographysavannasizeVenezuela
Type
Research Article
Information
Journal of Tropical Ecology , Volume 5 , Issue 4 , November 1989 , pp. 387 - 400
Copyright
Copyright © Cambridge University Press 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

LITERATURE CITED

Canales, M. J. & Silva, J. F. 1986. Efecto de una quema sobre el crecimiento y demografia de vastagos en Sporobolus cubensis. Acta Oecologica, Oecologia Generalis 8:391401.Google Scholar
Caswell, H. 1986. Life cycle models for plants. Lectures on Mathematics in the Life Sciences 18:171233.Google Scholar
Cook, S. J. 1985. Effect of nutrient and herbicides on root competition between green panic seedlings and Heteropogon contortus grassland sward. Grass and Forage Science 40:171175.CrossRefGoogle Scholar
Cook, S. J. & Ratcliff, D. 1984. A study of root and shoot competition on the growth of green panic (Panicum maximum var. trichoglume) seedlings in an existing grassland using root exclusion tubes. Journal of Applied Ecology 21:971982.CrossRefGoogle Scholar
Frost, P. G. H. 1985. The responses of savanna organisms to fire. Pp. 232–237 in Tothill, J. C. & Mott, J. J. (eds). Ecology and management of the world's savannas. Australian Academy of Science.Google Scholar
Frost, P., Menaut, J. C., Walker, B. H., Medina, E., Solbrig, O. T. & Swift, M. (Eds). 1985. Responses of savannas to stress and disturbance A proposal for a Collaborative Programme of Research. Biology International, Special Issue 10. IUBS.Google Scholar
Gillon, D. 1983. The fire problem in tropical savannas. Pp. 617641 in Bourliere, F. (ed.). Tropical savannas. Elsevier, New York.Google Scholar
Grubb, P. J. 1977. The maintenance of species richness in plant communities: the importance of the regeneration niche. Biological Review 52:107145.CrossRefGoogle Scholar
Harper, J. L. 1977. Population biology of plants. Academic Press, New York. 892 pp.Google Scholar
Jones, R. M. & Mott, J. J. 1980. Population dynamics in grazed pastures. Tropical Grasslands 14:218224.Google Scholar
Lacey, C. J., Walker, J. & Noble, I. R. 1982. Fire in Australian tropical savannas. Pp. 246–272 in Huntley, B. J. & Walker, B. H. (eds). Ecology of tropical savannas. Springer-Verlag. Berlin.Google Scholar
Medina, E. 1980. Ecology of Tropical American Savannas: an ecophysiological approach. Pp. 297–331 in Harris, D. R. (ed.). Human ecology in savanna environments. Academic Press, London.Google Scholar
Monasterio, M. & Sarmiento, G. 1976. Phenological strategies in species of the seasonal savanna and semideciduous forest in the Venezuelan Llanos. Journal of Biogeography 3:325355.CrossRefGoogle Scholar
Mott, J. J. & Andrew, M. H. 1985. The effect of fire on the population dynamics of native grasses in tropical savannas of North-West Australia. Proceedings Ecological Society of Australia 13:231239.Google Scholar
Newell, S. J., Solbrig, O. T. & Kincaid, D. T. 1981. Studies on the population biology of the genus Viola. III. The demography of Viola blanda and Viola pallans. Journal of Ecology 69:9971016.CrossRefGoogle Scholar
PiÑero, D., Martinez-Ramos, M. & Sarukhan, J. 1984. A population model of Astrocaryum mexicanum and a sensitivity analysis of its finite rate of increase. Journal of Ecology 72:979992.CrossRefGoogle Scholar
Pressland, A. J. 1982. Fire in the management of grazing lands in Queensland. Tropical Grasslands 16:104112.Google Scholar
Pyke, D. A. & Thompson, J. N. 1986. Statistical analysis of survival and removal rate experiments. Ecology 67:240245.CrossRefGoogle Scholar
San Jose, J. J. & Medina, E. 1975. Effect of fire on organic matter production and water balance in a tropica savanna. Pp. 251–264 in Golley, F. & Medina, E. (eds). Tropical ecological systems. Springer Verlag, Berlin.Google Scholar
Sarmiento, G. 1983a. The savannas of tropical America. Pp. 245288 in Bourliere, F. (ed.). Tropical savannas. Elsevier, Amsterdam.Google Scholar
Sarmiento, G. 1983B. Patterns Of Specific And Phenological Diversity In The Grass Community Of The Venezuelan Tropical Savannas. Journal Of Biogeography 10:379391.CrossRefGoogle Scholar
Sarmiento, G. & Monasterio, M. 1983. Life forms and phenology. Pp. 79108 in Bourliere, F. (ed.). Tropical savannas. Elsevier, Amsterdam.Google Scholar
Sarukhan, J. & Harper, J. L. 1973. Studies on plant demography: Ranunculus repens L., R. bulbosus L. and R. acris L. I. Population flux and survivorship. Journal of Ecology 61:675716.CrossRefGoogle Scholar
Silva, J. F. 1987. Responses of savannas to stress and disturbance: species dynamics. Pp. 141156 in Walker, B. H. (ed.). Determinants of tropical savannas. IUBS Monograph Series No. 3. Paris.Google Scholar
Silva, J. F. & Ataroff, M. 1985. Phenology, seed crop and germination of coexisting grass species from a tropical savanna in western Venezuela. Acta Oecologica, Oecologia Plantarum 6:4151.Google Scholar
Silva, J. F. & Sarmiento, G. 1976. Influencia de factores edaficos en la diferenciacion de las sabanas. Analisis de componentes principales y su interpretacion ecologica. Acta Cientifica Venezolana 27: 141147.Google Scholar
Smith, E. L. 1960. Effects of burning and clipping at various times during the wet season on tropical tall grass range in Northern Australia. Journal of Range Management 13:197203.CrossRefGoogle Scholar
Sokal, R. R. & Rohlf, F. J. 1969. Biometry. W. H. Freeman & Co., San Francisco.Google Scholar
Solbrig, O. T. 1981. Studies on the population biology of the genus Viola II. The effect of plant size on fitness in Viola sororia Evolution 35:10801093.Google ScholarPubMed
Solbrig, O. T., Newell, S. J. & Kincaid, D. T. 1980. The population biology of the genus Viola. I. the demography of Viola sororia. Journal of Ecology 68:521546.CrossRefGoogle Scholar
Tothill, J. C. 1971. A review of fire in the management of native pasture with particular reference to north-eastern Australia. Tropical Grasslands 5:110.Google Scholar
Trollope, W. S. W. 1982. Ecological Effects of Fire in South African Savannas. Pp. 292306 in Huntley, B. J. & Walker, B. H. (eds). Ecology of tropical savannas. Springer-Verlag, Berlin.CrossRefGoogle Scholar
Werner, P. A. 1975. Predictions of fate from rosette size in teasel (Dipsacus fullonum L.). Oecologia (Berlin) 20:197201.Google Scholar