Summary
The effects of fire and pocket gophers, Geomys bursarius, on the survivorship of Penstemon grandiflorus growing in an oak woodland in Minnesota were studied from 1986 to 1990. Plants growing in sparse vegetation experienced mortality rates twice that of plants growing in dense vegetation. This difference was due partly to pocket gophers whose earth moving activities reduce the density of vegetation and bury and kill individual Penstemon plants. Laboratory feeding trials showed that gophers readily eat Penstemon, particularly the fleshy roots. An experiment involving the removal of 25–75% of the root tissue in 90 plants showed that root loss significantly reduced survivorship, suggesting that gopher herbivory might also kill plants. When gophers were experimentally excluded, plants growing in sparse vegetation exhibited significantly lower mortality rates than those growing in dense vegetation. Plants in the smallest size class exhibited reduced survivorship following a late spring burn; however, overall patterns of survivorship of plants in burned areas did not differ markedly from those in the unburned areas. A longitudenal analysis of plants with different reproductive histories revealed no survivorship cost to reproduction. Mortality rates decreased with increasing plant size. Small plants were more likely to be killed by fire and by being buried under gopher mounds. Differences in underground energy reserves of small and large plants can account for most of the survivorship patterns observed in this study. The study shows that within openings of the oak woodland, fire and gophers reduce the survival of individual Penstemon plants. Nevertheless, since both gophers and fire also serve to perpetuate suitable habitat in the woodland, Penstemon is ultimately dependent on both for its long term persistence in the landscape.
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References
Allen TFH, Starr TB (1982) Hierarchy: Perspectives for Ecological Complexity. University of Chicago Press, Chicago
Barkley TM (1986) (ed) Flora of the Great Plains. University Press of Kansas, Lawrence, Kansas
Baskin JM, Baskin CC (1979) Studies on the autecology and population biology of the weedy monocarpic perennial, Pastinaca sativa. J Ecol 67:601–610
Behrend AF, Tester JR (1988) Feeding ecology of plains pocket gopher (Geomys bursarius) in east-central Minnesota. Prairie Nat 20:99–107
Bonham CD (1989) Measurements for Terrestrial Vegetation. John Wiley & Sons, New York
Davis MA, Villinski J, Banks K, Buckman-Fifield J, Dicus J, Hofmann S (1990) Combined effects of fire, pocket gophers, and plant size, on growth and reproduction in Penstemon grandiflorus. Am Midl Nat
Ellison L (1946) The pocket gopher in relation to soil erosion on mountain range. Ecology 27:101–114
Foster MA, Stubendieck J (1980) Effects of the plains pocket gopher (Geomys bursarius) on rangeland. J Ran Manag 33:74–78
Grigal DF, Chamberlain LM, Finney HR, Wroblewski DV, Gross ER (1974) Soils of the Cedar Creek Natural History Area. Misc Report 123, University of Minnesota Agricultural Experiment Station, St. Paul, Minnesota, USA
Grizzle JE, Starmer CR, Kock GG (1969) Analysis of categorical data by linear models. Biometrics 25:489–504
Gross KL (1981) Predictions of fate from rosette size in four “biennial” plant species: Verbascum thapsus, Oenothera biennis, Daucus carota, and Tragopogon dubius. Oecologia 48:209–213
Gross RS, Werner PA (1983) Probabilities of survival and reproduction relative to rosette size in the common burdock (Arctium minus: Compositae). Am Midl Nat 109:184–193
Huntly N, Inouye R (1988) Pocket gophers in ecosystems: patterns and mechanisms. Bioscience 38:786–793
Hurlbert SH (1984) Pseudoreplication and the design of ecological field experiments. Ecology 54:187–211
Lampe RP (1976) Aspects of the predatory strategy of the North American badger, Taxidea taxus. PhD Dissertation, Univ Minnesota, Minneapolis, MN
Moore AW, Reid EH (1951) The Dalles pocket gopher and its influence on forage production of Oregon mountain meadows. U.S. Department of Agriculture Circular 884
O'Neill RV, DeAngelis DL, Waide JB, Allen TFH (1986) A Hierarchical Concept of Ecosystems. Princeton University Press, Princeton
Platt WJ (1975) The colonization and formation of equilibrium plant species associations on badger mounds in a tallgrass prairie. Ecol Monogr 7:342–351
Reichman OJ (1988) Comparison of the effects of crowding and pocket gopher disturbance on mortality, growth and seed production of Berteroa incana. Am Midl Nat 120:58–69
Reichman OJ, Smith SC (1985) Impact of pocket gopher burrows on overlying vegetation. J Mamm 66:720–725
Risser PG, Birney EC, Blocker HD, May SW, Parton WJ, Wiens JA (1981) The true prairie ecosystem. Hutchinson Ross Publishing Co, Stroudsburg, Pennsylvania
Tester JR (1989) Effects of fire frequency on oak savanna in east central Minnesota. Bull Tor Botan Club 116:134–144
Werner PA (1975) Predictions of fate from rosette size in teasel (Dipsacus fullonum L.). Oecologia 20:197–201
Zedler PH, Gautier CR, McMaster GS (1983) Vegetation change in response to extreme events: the effect of a short interval between fires in California chaparral and coastal shrub. Ecology 64:809–818
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Davis, M.A., Villinski, J., McAndrew, S. et al. Survivorship of penstemon grandiflorus in an oak woodland: combined effects of fire and pocket gophers. Oecologia 86, 113–118 (1991). https://doi.org/10.1007/BF00317397
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DOI: https://doi.org/10.1007/BF00317397