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 OJF  Vol.2 No.3 , July 2012
Herbaceous-Layer Community Dynamics along a Harvest-Intensity Gradient after 50 Years of Consistent Management
Abstract: In 1958, a demonstrational cutting trial totaling 22.2 ha was established in a northern hardwood forest in Alberta, MI. Eight different treatments were installed, including four diameter-limit treatments (56 cm, 41 cm, 30 cm, and 13 cm), three single-tree selection treatments with residual basal areas of 21 m2·ha–1, 16 m2·ha–1, and 11 m2·ha–1, and an uncut control. Within each treatment, a 0.4-ha permanent plot was established and subdivided into 0.04-ha square subplots. Harvests have been implemented every ten years with the most recent harvest occurring during the winter of 2008 - 2009. We quantified ground layer vegetation response before and after the most recent harvest. Nonmetric multidimensional scaling (NMS) ordination showed a very distinct separation between the most intensive management treatment (13-cm diameter-limit treatment) and the uncut control. Compositionally, the diameter-limit treatments moved with greater directionality and magnitude towards the 13-cm diameter-limit treatment following harvest, while compositional change in the residual basal area treatments was less pronounced and lacked strong directionality. Herbaceous species percent cover generally decreased with increasing residual overstory basal area across treatments. Weedy and early successional species were most abundant under lower residual basal area and diameter-limit treatments. Results based on 50 years of continuous management suggest that diameter-limit harvests likely have a greater impact on the herbaceous community than single-tree selection or no management.
Cite this paper: Campione, M. , Nagel, L. & Webster, C. (2012). Herbaceous-Layer Community Dynamics along a Harvest-Intensity Gradient after 50 Years of Consistent Management. Open Journal of Forestry, 2, 97-109. doi: 10.4236/ojf.2012.23013.
References

[1]   Arbogast, C. J. (1953). Managing hardwoods in the Lake States. 11. Forest Service Miscellaneous Report 23. St. Paul, MN: United States Department of Agriculture, Forest Service, Lake States Forest Experiment Station.

[2]   Arbogast, C. J. (1957). Marking guides for northern hardwoods under the selection system. 21. Station Paper LS-56. St. Paul, MN: US Department of Agriculture, Forest Service, Lake States Forest Experiment Station.

[3]   Berndt. L. W. (1988). Soil survey of Baraga County area Michigan. Washington DC: USDA Soil Conservation Service.

[4]   Buckley, D. S., Crow, T. R., Nauertz, E. A., & Schulz, K. E. (2003). Influence of skid trials and haul roads on understory plant richness and composition in managed forest landscapes in Upper Michigan, USA. Forest Ecology Management, 175, 509-520. doi:10.1016/S0378-1127(02)00185-8

[5]   Burger, T. L., & Kotar, J. (2003.) A guide to forest communities and habitat types of Michigan. Department of Forest Ecology and Man -agement (p. 361). Madison, WI: University of Wisconsin-Madison.

[6]   Bodine, J. T. (2000). The effects of eight silvicultural treatments on quality development financial returns and regeneration following 42 years of management. M.S. Thesis, Houghton, MI: Michigan Technological University, School of Forestry and Wood Products.

[7]   Bohn, K. K., Nyland, R. D., & Yanai, R. D. (2011). Comparing selection systems and diameter-limit cutting in uneven-aged northern hardwoods using computer simulation. Canadian Journal Forest Research, 41, 963-973. doi:10.1139/x11-027

[8]   Burton, J. I., Zenner, E. K., Frelich, L. E., & Cornett, M. W. (2009). Patterns of plant community structure within and among primary and second-growth northern hardwood forest stands. Forest Ecology and Management, 258, 2556-2568. doi:10.1016/j.foreco.2009.09.012

[9]   Bourdo, E. A., & Johnson, J. A. (1957). Plan for the establishment of 1956 stocking level management studies in “selectively cut” northern hardwoods and brief outline of associated terminal study. Houghton, MI: Ford Forestry Center, Michigan Technological University.

[10]   Crow, T. R., Buckley, D. S., Nauertz, E. A., & Zasada, J. C. (2002). Effects of management on the composition and structure of northern hardwood forests in Upper Michigan. Forest Science, 48, 129-145.

[11]   Curtis, J. T. (1959). The vegetation of Wisconsin: An ordination of plant communities. Madison, WI: University of Wisconsin Press.

[12]   DeAngelis, D. L., Gardner, R. H., & Shugart, H. H. (1981). Productivity of forest ecosystems studied during the IBP: the woodlands data set. In D. E. Reichle (Ed.), Dynamic properties of forest ecosystems, International Biological Programme 23 (pp. 567-672). Cambridge, UK: Cambridge University Press.

[13]   Erickson, M. D., Reed, D. D., & Mroz, G. D. (1990.) Stand development and economic analysis of alternative cutting methods in northern hardwoods: 32-year results. Northern Journal of Applied Forestry, 7, 153-158.

[14]   Field, J. G. Clarke, K. R. & Warwick, R. M. (1982). A practical strategy for analysing multispecies distribution patterns. Marine Ecology Progress Series, 8, 37-52. doi:10.3354/meps008037

[15]   Frelich, L. E. (2002). Forest dynamics and disturbance regimes: studies from temperate evergreen-deciduous forests. Cambride, UK: Cambridge University Press. doi:10.1017/CBO9780511542046

[16]   Fr?borg, H., & Ove, E. (1997) Local colonization and extinction of field layer plants in a deciduous forest and their dependence upon life history features. Journal of Vegetation Science, 8, 395-400. doi:10.2307/3237329

[17]   Folke, C., Carpenter, S., Walker, B., Scheffer, M., Elmqvist, T., Gunderson, L., & Hollin, C. S. (2004). Regime shifts, resilience, and biodiversity in ecosystem management. Annual Review Ecology, Evolution, and Systematics, 35, 557-581. doi:10.1146/annurev.ecolsys.35.021103.105711

[18]   Gill, R. (1996). The influence of large herbivores on tree recruitment and forest dynamics. In K. Daniel, Duncan, P., Bergstrom, R., & Pastor, J. (Eds.), Large herbivore ecology, ecosystem dynamics and conservation (pp. 170-202). New York: Cambridge University Press.

[19]   Gilliam, F. S. (2007). The ecological significance of the herbaceous layer in temperate forest ecosystems. BioScience, 57, 845-858. doi:10.1641/B571007

[20]   Gilliam, F. S., & Roberts, M. R. (2003). The herbaceous layer in forests of Eastern North America. New York: Oxford University Press.

[21]   Gronewold, C. A., D’Amato, A. W., & Palik, B. J. (2010.) The influence of cutting cycle and stocking level on the structure and composition of managed old-growth northern hardwoods. Forest Ecology Management, 259, 1151-1160. doi:10.1016/j.foreco.2010.01.001

[22]   Hester, A. J., Bergman, M., Iason, G. R., & Moen, J. (1996.) Impacts of large herbivores on plant community structure and dynamics. In K. Daniel, P. Duncan, R. Bergstrom, & J. Pastor (Eds.), Large herbivore ecology, ecosystem dynamics and conservation (pp.97-141). New York: Cambridge University Press.

[23]   Helms, J. A. (1998). The dictionary of forestry. Bethesda, MD: Society of American Foresters.

[24]   Holmes, S. A., & Webster, C. R. (2011). Herbivore-induced expansion of generalist species as driver of homogenization in post-disturbance plant communities. Plant Ecology, 212, 753-768. doi:10.1007/s11258-010-9858-y

[25]   Hooper, D. U., Chapin III, F. S., Ewel, J. J., Hector, A., Inchausti, P., Lavorel, S., Lawton, J. H., Lodge, D. M., Loreau, M., Naeem, S., Schmid, B., Set?l?, H., Symstad, A. J., Vandermeer, J., & Wardle, D. A. (2005). Effects of biodiversity on ecosystem functioning: A consensus of current knowledge. Ecological Monographs, 75, 3-35. doi:10.1890/04-0922

[26]   Horsley, S. B., & Marquis, D. A. (1983). Interference by weeds and deer with Allegheny hardwood reproduction. Canadian Journal of Forest Research, 13, 61-69. doi:10.1139/x83-009

[27]   Jenkins, M. A., & Parker, G. R. (1999). Composition and diversity of ground-layer vegetation in silvicultural openings of Southern Indiana forests. American Midland Naturalist, 142, 1-16. doi:10.1674/0003-0031(1999)142[0001:CADOGV]2.0.CO;2

[28]   Kelty, M. J., Kittredge, D. B., Kyker-Snowman, T., & Leighton, A. D. (2003). The conversion of even-aged stands to uneven-aged structure in southern New England. Northern Journal of Applied Forestry, 20, 109-116.

[29]   Kern, C. C., Palik, B. J., & Strong, T. F. (2006). Ground-layer plant community responses to even-aged and uneven-age silvicultural treatments in Wisconsin northern hardwood forests. Forest Ecology and Management, 230, 162-170. doi:10.1016/j.foreco.2006.03.034

[30]   Leak, W. B., & Sendak, P. E. (2002). Changes in species, grade, and structure over 48 years in a managed New England northern hard-wood stand. Northern Journal of Applied Forestry, 19, 25-27.

[31]   McCune, B., & Grace, J. B. (2002.) Analysis of ecological communities. Gleneden Beach, Oregon: MjM Software Design.

[32]   McCune, B., & Mefford, M. J. (2011). PC-ORD. Multivariate analysis of ecological data. Gleneden Beach, Oregon: MjM Software.

[33]   Metzger, F., & Schultz, J. (1981). Spring ground layer vegetation 50 years after harvesting in northern hardwood forests. American Midland Naturlist, 105, 44-50. doi:10.2307/2425008

[34]   National Climatic Data Center (NCDC) (2011) Record of climatological observations for Alberta Ford Forest Center. URL (last checked 20 June 2011). http://www.ncdc.noaa.gov/oa/climate/stationlocator.html

[35]   Neuendorff, J. K., Nagel, L. M., Webster, C. R., & Janowiak, M. K. (2007). Stand structure and composition in a northern hardwood forest after 40 years of single-tree selection. Northern Journal of Applied Forestry, 24, 197-202.

[36]   Nyland, R. D. (1996). Silviculture concepts and applications. New York: McGraw-Hill, Inc..

[37]   Oliver, C. D., & Larson, B. C. (1996). Forest stand dynamics: Update edition. New York: John Wiley & Sons, Inc.

[38]   Paillet, Y., Bergès, L., Hj?ltén, ódor, P., Avon, C., Bernhardt-R?mermann, M., Bijlsma, R. et al. (2009). Biodiversity differences between managed and unmanaged forests: Meta-analysis of species richness in Europe. Conservation Biology, 24, 101-112. doi:10.1111/j.1523-1739.2009.01399.xPMid:20121845

[39]   R Development Core Team (2009). R: A language environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing.

[40]   Reed, D. D., Holmes, M. J., & Johnson, J. A. (1986). A 22-year study of stand development and financial return in northern hardwoods. Northern Journal of Applied Forestry, 3, 35-38.

[41]   Scheiner, S., & Istock, C. A. (1994). Species enrichment in a transitional landscape, northern lower Michigan. Canadian Journal of Botany, 72, 217-225. doi:10.1139/b94-030

[42]   Scheller, R. M., & Mladenoff, D. J. (2002). Understory species patterns and diversity in old-growth and managed northern hardwood forests. Ecological Application, 12, 1329-1343. doi:10.1890/1051-0761(2002)012[1329:USPADI]2.0.CO;2

[43]   Schwartz, J. W., Nagel, L. M., & Webster, C. R. (2005).The effects of uneven-aged management on diameter distribution and species composition of northern hardwoods in upper Michigan. Forest Ecology and Management, 211, 356-370. doi:10.1016/j.foreco.2005.02.054

[44]   Shields, J. M., & Webster, C. R. (2007). Ground-layer response to group selection with legacy-tree retention in a managed northern hardwood forest. Canadian Journal of Forest Research, 37, 17971807. doi:10.1139/X07-052

[45]   Stearns, F. W. (1997). History of the Lakes States forests: natural and human impacts. In J. M. Webster (Ed.), Lake States Regional Forest Resources Assessment: Technical Papers (pp. 8-29). USDA Forest Service General Technical Report NC-189.

[46]   Thompson, K., & Band, S. R. (1997). Survival of a lowland heathland seed bank after a 33-year burial. Seed Science Research, 7, 409-411. doi:10.1017/S0960258500003822

[47]   Tubbs, C. H. (1977). Manager’s handbook for northern hardwoods in North Central States. 29. US Forest Service General Technical Re-port NC-39, St. Paul, MN: US Department of Agriculture, Forest Service, North Central Forest Experiment Station. URL (last checked 27 March 2011). htp://plants.usda.gov

[48]   van der Maarel, E., & Martin, S. T. (1993). Small-scale plant species turnover in a limestone grassland: The carousel model and some comments on the niche concept. Journal of Vegetation Science, 4548, 179-188.

[49]   Wolf, A. T., Parker, L., Fewless, G., Corio, K., Sundance, J., Howe, R., & Gentry, H. (2008). Impacts of summer versus winter logging on understory vegetation in the Chequamegon-Nicolet Forest. Forest Ecology Management, 254, 35-45. doi:10.1016/j.foreco.2007.07.024

[50]   Whitney, G. G., & Foster, D. R. (1988). Overstory composition and age as determinants of the understory flora of woods of central New England. Journal of Ecology, 76, 867-876. doi:10.2307/2260578

[51]   Whittaker, R. H. (1967) Gradient analysis of vegetation. Biological Reviews of the Cambridge Philosophical Society (London), 49, 207264.

[52]   Williams, M. (1989). Americans and their forests: A historical geography. Cambridge, UK: Cambridge University Press.

 
 
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