Fire temperature and residence time during dry season burning in a Sudanian savanna-woodland of West Africa with implication for seed germination

Sidzabda Djibril Dayamba; Patrice Savadogo; Didier Zida; Louis Sawadogo; Daniel Tiveau; Per Christer Oden

doi:10.1007/s11676-010-0095-y

Journal of Forestry Research ›› 2010, Vol. 21 ›› Issue (4) : 445 -450. DOI: 10.1007/s11676-010-0095-y

Original Paper

Fire temperature and residence time during dry season burning in a Sudanian savanna-woodland of West Africa with implication for seed germination

Author information +

History +

PDF

Abstract

Prescribed fire is used in the Sudanian savanna-woodland of West Africa as a forest management tool. An experiment was carried out to assess the effects of season of burning, and different vertical probe positions on maximum fire temperature and temperature residence time above 60°C which is considered lethal for plant tissues. Seasons of burning considered were: an early season fire set at the beginning of the dry season (beginning of December), mid-season fire set at the peak of the dry season (mid-January), and a late season fire at the end of the dry season (end of March). The effects of these fires on the germination of buried seeds of three socio-economically valuable tree species were also examined. Results indicated significant differences in maximum fire temperature and residence time with respect to season of burning and vertical probe position (p < 0.001). The highest and longest lasting temperatures were observed at 20 cm above ground during early fire and at the soil surface during mid-season and late fires. This, in turn, affected germination responses of seeds buried at different soil depths. Implications of these findings in the current management practices are discussed.

Keywords

Burkina Faso / fire season / regeneration / Savanna-woodland / tropical ecosystem

Cite this article

Download citation ▾

Sidzabda Djibril Dayamba, Patrice Savadogo, Didier Zida, Louis Sawadogo, Daniel Tiveau, Per Christer Oden. Fire temperature and residence time during dry season burning in a Sudanian savanna-woodland of West Africa with implication for seed germination. Journal of Forestry Research, 2010, 21(4): 445-450 DOI:10.1007/s11676-010-0095-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]	Auld T.D., O’Connell M.A.. Predicting patterns of post-fire germination in 35 eastern Australian Fabaceae. Australian Journal of Ecology, 1991, 16: 53-70.

[2]	Baskin C.C., Baskin J.M.. Seeds: ecology, biogeography, and evolution of dormancy and germination. 1998, San Diego, California: Academic Press

[3]	Bellefontaine R., Gaston A., Petrucci Y.. Management of natural forests of dry tropical zones. 2000, Italy: Food and Agriculture Organisation of the United Nations Rome

[4]	Bewley J.D., Black M.. Seeds: Physiology of Development and Germination, 1994 2nd edition New York: Plenum Press

[5]	Bond W.J., Van Wilgen B.W.. Fire and plants, 1996 1rst edition London, United Kingdom: Chapman & Hall

[6]	Bradstock R.A., Auld T.D.. Soil temperatures during experimental bushfires in relation to fire intensity: consequences for legume germination and fire management in south-eastern Australia. Journal of Applied Ecology, 1995, 32: 76-84.

[7]	Cohen J.. Statistical power analysis for the behavioral sciences. 1988, Hillsdale, NJ: Lawrence Erlbaum

[8]	Daniell J.W., Chappell W.E., Couch H.B.. Effect of sublethal and lethal temperatures on plant cells. Plant Physiology, 1969, 44: 1684-1689.

[9]	Danthu P., Ndongo M., Diaou M., Thiam O., Sarr A., Dedhiou B., Ould Mohamed Vall A.. Impact of bush fire on germination of some West African acacias. Forest Ecology and Management, 2003, 173: 1-10.

[10]	Dayamba S.D., Tigabu M., Sawadogo L., Oden P.C.. Seed germination of herbaceous and woody species of the Sudanian savanna-woodland in response to heat shock and smoke. Forest Ecology and Management, 2008, 256: 462-470.

[11]	De Luis M., Raventos J., Gonzalez-Hidalgo J.C.. Factors controlling seedling germination after fire in Mediterranean gorse shrublands. Implications for fire prescription. Journal of Environmental Management, 2005, 76: 159-166.

[12]	Driessen P., Deckers J., Spaargaren O.. Lecture notes on the major soils of the world. 2001, Italy: Food and Agriculture Organization of the United Nations Rome

[13]	Gashaw M., Michelsen A.. Influence of heat shock on seed germination of plants from regularly burnt savanna woodlands and grasslands in Ethiopia. Plant Ecology, 2002, 159: 83-93.

[14]	Gillon D.. Boulière F.. The fire problem in tropical savannas. Tropical savannas ecosystems of the world. 1983, Amsterdam: Elsevier, 617 641

[15]	Gomez K.A., Gomez A.A.. Statistical procedures for agricultural research. 1976, New York: John Whiley & Sons

[16]	Govender N., Trollope W.S.W., Van Wilgen B.W.. The effect of fire season, fire frequency, rainfall and management on fire intensity in savanna vegetation in South Africa. Journal of Applied Ecology, 2006, 43: 748-758.

[17]	Herranz J.M., Ferrandis P., Martinez-Sánchez J.J.. Influence of heat on seed germination of seven Mediterranean Leguminosae species. Plant Ecology, 1998, 136: 95-103.

[18]	Nikiema A.. Agroforestry parkland species diversity: uses and management in semi-arid West Africa. 2005, Nertherlands: Wageningen University

[19]	Sawadogo L., Nygard R., Pallo F.. Effects of livestock and prescribed fire on coppice growth after selective cutting of Sudanian savannah in Burkina Faso. Annals of Forest Science, 2002, 59: 185-95.

[20]	Sawadogo L., Tiveau D., Nygård R.. Influence of selective tree cutting, livestock and prescribed fire on herbaceous biomass in the savannah woodlands of Burkina Faso, West Africa. Agriculture, Ecosystems and Environment, 2005, 105: 335-345.

[21]	Savadogo P., Tiveau D., Sawadogo L., Tigabu M.. Herbaceous species responses to long-term effects of prescribed fire, grazing and selective tree cutting in the savanna-woodlands of West Africa. Perspectives in Plant Ecology, Evolution and Systematics, 2008, 10: 179-195.

[22]	Savadogo P., Zida D., Sawadogo L., Tiveau D., Tigabu M., Oden P.C.. Fuel and fire characteristics in savanna-woodland of West Africa in relation to grazing and dominant grass type. International Journal of Wildland Fire, 2007, 16: 531-539.

[23]	Trollope WSW, Trollope LA. 2004. Prescribed burning in African grasslands and savannas for wildlife management. Arid Lands Newsletter 55 Fire Ecology II.

[24]

Trollope W.S.W., Trollope L.A., Hartnett D.C.. Fire behaviour a key factor in the fire ecology of African grasslands and savannas. “Proceedings of IV International Conference on Forest Fire Research & Wildland Fire Safety” 18–23 November 2002. 2002, Rotterdam: Luso, Coimbra, Portugal Ed DX Viegas Millpress

[25]	Valbuena L., Vera M.L.. The effects of thermal scarification and seed storage on germination of four heathland species. Plant Ecology, 2002, 161: 137-144.

[26]	Valette J.C., Gomendy V., Marechal J., Houssard C., Gillon D.. Heattransfer in the soil during very low-intensity experimental fires — the role of duff and soil-moisture content. International Journal of Wildland Fire, 1994, 4: 225-237.

[27]	Walters M, Midgley JJ, Somers MJ. 2004. Effects of fire and fire intensity on the germination and establishment of Acacia karroo, Acacia nilotica, Acacia luederitzii and Dichrostachys cinerea in the field. BMC Ecology 4, Article No. 3.

[28]	Whelan R.J.. The ecology of fire. 1995, New York: Cambridge University Press, New York

[29]	White F.. The vegetation of Africa. A Descriptive Memoir to Accompany the UNESCO/AETFAT/UNSO Vegetation Map of Africa. 1983, Paris: UNESCO

[30]	Zar J.H.. Biostatistical analysis, 1999 Fourth Edition Upper Saddle River: New Jersey: Prentice Hall

[31]	Zida D., Sawadogo L., Tigabu M., Tiveau D., Oden P.C.. Dynamics of sapling population in savanna woodlands of Burkina Faso subjected to grazing, early fire and selective tree cutting for a decade. Forest Ecology and Management, 2007, 243: 102-115.

[32]	Zida D., Tigabu M., Sawadogo L., Oden 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.