Abstract
Major disturbances that remove vegetation cover create conditions that differ greatly from those in adjacent forests. In volcanic areas, tephra deposition can be a major disturbance that eliminates vegetation cover and creates a barrier for plant establishment. The eruption of the Paricutín volcano, in Michoacán, México, from 1943 to 1952, created large tephra deposits adjacent to forest stands. Many of these deposits still lack native vegetation and understanding of the limiting factors for establishment of native tree species is necessary to restore these areas. Pinus pseudostrobus early growth in response to the amount of fertile growing medium on top of a variable-depth tephra layer was evaluated in a greenhouse experiment. Increasing amounts of fertile growing medium increased height of 28-week-old plants (no growing medium = 5.5 cm tall ±1.8 cm, 3 cm of growing medium = 21.2 ± 4.6 cm and 6 cm of growing medium 24.8 ± 4.4 cm). Other variables showed the same trend (diameter, number of fascicles, belowground biomass and aboveground biomass). Our results suggest that P. pseudostrobus establishment in tephra covered areas will depend on the accumulation of a fertile layer of more than 3 cm in thickness.
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References
Bazzas FA, Wayne PM (1994) Coping with environmental heterogeneity: the physiological ecology of tree seedling regeneration across the gap-understory continuum. In: Caldwell MM, Pearcy RW (eds) Exploitation of environmental heterogeneity by plants. Academic Press, New York, pp 349–390
Beaman JH (1960) Vascular plants on the cinder cone of Paricutín Volcano in 1958. Rhodora 62: 175–186
Blanco-García A, Lindig-Cisneros yR (2005) Incorporating restoration in sustainable forestry management: Using pine bark mulch to improve native-species establishment on tephra deposits. Restor Ecol 13:703–709
Bruna EM (2002) Effects of forest fragmentation on Heliconia acuminata seedling recruitment in central Amazonia. Oecologia 132:235–243
Eggler WA (1948) Plant communities in the vicinity of the volcano Paricutín, México, after two and a half years of eruption. Ecology 29:415–437
Eggler WA (1959) Manner of invasion of volcanic deposits with further evidence from Paricutín and Jorullo. Ecol Monogr 29:267–284
Eggler WA (1963) Plant life of Paricutín volcano, México, eight years after activity ceased. Am Mid Nat 69:38–67
Frenzen PM, Franklin JF (1985) Establishment of conifers from seed on tephra deposited by the 1980 eruptions of Mount St. Helens, Washington. Am Mid Nat 114:84–97
Gray AN, Spies TA (1997) Microsite controls on tree seedling establishment in conifer forest canopy gaps. Ecology 78:2458–2473
Kroh GC, White JD, Heath SK (2000) Colonization of a Volcanic Mudflow by an Upper Montane Coniferous Forest at Lassen Volcanic National Park, California. Am Midl Nat 143:126–140
Lindig-Cisneros RS, Galindo-Vallejo yS Lara-Cabrera. In press. Vegetation development in agricultural fields covered by tephra after 50 years of the eruption of the Paricutín volcano, México. Southwestern Naturalist
Lindig-Cisneros R, Sáenz-Romero C, Alejandre N, Aureoles E, Galindo S, Gómez M, Martínez R, Medina E (2002) Efecto de la profundidad de los depósitos de arena volcánica en el establecimiento de vegetación nativa en las inmediaciones del volcán Paricutín, México. Ciencia Nicolaita 31:47–54
Mesquita RCG, Delamonica P, Laurance WF (1999) Effect of surrounding vegetation on edge-related tree mortality in Amazonian forest fragments. Biol. Cons. 91:129–134
Rejmánek M, Haagerova R, Haager J (1982) Progress of plant succession on the Paricutín volcano: 25 years after activity ceased. Am. Mid. Nat. 108:194–198
Statistical Sciences (1999) S-Plus, Version 2000 for Windows. Mathsoft Inc., Seattle Washington USA
Acknowledgements
We thank the Comunidad Indígena de Nuevo San Juan Parangaricutiro for their support in conducting this research and the Gaylor Nelson Institute for Environmental Studies, of the University of Wisconsin-Madison for their support through a gift by Ed Weigner.
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Alejandre-Melena, N., Lindig-Cisneros, R. & Sáenz-Romero, C. Response of Pinus pseudostrobus Lindl. to fertile growing medium and tephra-layer depth under greenhouse conditions. New Forests 34, 25–30 (2007). https://doi.org/10.1007/s11056-006-9034-3
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DOI: https://doi.org/10.1007/s11056-006-9034-3