Instructions for submission of article citations may be found in your lab manual.

Pine Lab Articles 2009

  • Balandier, P., Collet, C., Miller, J.H., Reynolds, P.E., Zedaker, S.M. 2006. Designing forest vegetation management strategies based on the mechanisms and dynamics of crop tree competition by neighbouring vegetation. Forestry, 79 (1 SPEC. ISS.): 3-27.
  • Barton, A. and D. Grenier. 2008. Dynamics of jack pine at the southern range boundary in down east Maine. C J For Res 38(4): 733-743
  • Bebber, D. P., Thomas, S. C., Cole, D. B. and D. Balsillie. 2004. Diameter increment in mature eastern white pine (Pinus strobus L.) following partial harvest of old-growth stands in Ontario, Canada. Trees 18: 29-34.
  • Bebber, D., Cole, W., Thomas, S., Balsillie, D., and P. Duinker. 2005. Effects of Retention Harvests on Structure of Old-growth Pinus strobus L. stands in Ontario. For Ecol Manage , 205(1-3), 91-103.
  • Bebber, D., Cole, W., Thomas, S., Balsillie, D., & Duinker, P. 2005. Effects of Retention Harvests on Structure of Old-growth Pinus strobus L. stands in Ontario. For Ecol Manage 205(1-3), 91-103.
  • Bevilacqua, E., Puttock, D., Blake, T. J., and D. Burgess. 2005. Long-term differential stem growth responses in mature eastern white pine following release from competition. C J For Res 35(3): 511-520.
  • Boucher, J., Bernier, P.Y., Margolis, H.A., and Munson, A.D. 2006. Growth and physiological response of eastern white pine seedlings to partial cutting and site preparation. For Ecol Manage 240(1-3): 151-164.
  • Burgess, D., and Wetzel, S. 2000. Nutrient availability and regeneration response after partial cutting and site preparation in eastern white pine. For Ecol Manage 138 (1-3): 249-261.
  • Chittick, Andrew J.; Keyes, Christopher R. 2007. Holter Ridge Thinning Study, Redwood National Park: Preliminary Results of a 25-Year Retrospective. In: Standiford, Richard B.; Giusti, Gregory A.; Valachovic, Yana; Zielinski, William J.; Furniss, Michael J., technical editors. Proceedings of the Redwood Region Forest Science Symposium: What does the future hold? Gen. Tech. Rep. PSW-GTR-194. Albany, CA: Pacific Southwest Research Station, Forest Service, U.S. Department of Agriculture; p. 271-280
  • Cloutier D., Kanashiro M., Ciampi A.Y., and D.J. Schoen. 2006. Impact of selective logging on inbreeding and gene dispersal in an Amazonian tree population of Carapa guianensis Aubl. Mol Ecol 16: 797-809.
  • Compton, J, Hooker, T, and S. Perakis. 2007. Ecosystem N Distribution and 15N during a Century of Forest Regrowth after Agricultural Abandonment. Ecosystems 19:1197-1208
  • Coop, J.D. and A.W. Schoettle. 2008. Regeneration of Rocky Mountain bristlecone pine (Pinus aristata) and limber pine (Pinus flexilis) three decades after stand-replacing fires. For Ecol Manage 257 (3): 893-903
  • Corneila, J. A. and L. F. Wilson. 1986. Impact of Feeding by Adult Pales Weevil Hylobius-Pales Coleoptera Curculionidae on Christmas Tree Stands in Southeastern Michigan USA. J Econ Ent 79(1): 192-196.
  • Cortini, F. and P. Comeau. 2008. Effects of red alder and paper birch competition on juvenile growth of three conifer species in southwestern British Columbia. For Ecol.Manage 256(10): 1795-1803
  • Dovciak, M., Frelich, L. E., & Reich, P. B. 2001. Discordance in spatial patterns of white pine (Pinus strobus) size-classes in a patchy near-boreal forest. Journal of Ecology, 89, 280-291.
  • Good, Ralph, E and Norma F. Good. 1975. Growth Characteristics of Two Population of Pinus rigida Mill. from the Pine Barrens of New Jersey. Ecology 56(5):1215-1220.
  • Healey, J. R., Jones, D.L., Price M.H., Reynolds, B., and J.D. Walmsley. 2008. Whole tree harvesting can reduce second rotation forest productivity. For Ecol Manage 257(3):1104-1111.
  • Jain, T.B., Graham, R.T., and P. Morgan. 2004. Western white pine growth relative to forest openings. Can J For Res 34(11): 2187-2198.
  • Kittredge, D. B. Jr. and P. M. S. Ashton. 1990. Natural regeneration patterns in even-aged mixed stands in southern New England. North J Appl For 7(4): 163-168.
  • Knoepp, J. D. and W. T. Swank. 1997. Forest management effects on surface soil carbon and nitrogen. Soil Sci Soc Amer 61(3): 928-935.
  • Lorimer, C.G. 2008. Eastern white pine abundance in 19th century forests: A reexamination of evidence from land surveys and lumber statistics. J Forestry 106 (5): 253-260.
  • Lorimer, C., and J. Martin. 1997. How To Manage White Pine. Department of forest
    ecology and management, at college of agricultural and life science university of Wisconsin-Madison. 86: 1-5
  • Peterson, N. Varner, J. M. and B. Palic. 2008. Canopy Disturbance and tree recruitment over two Centuries in a Managed Longleaf Pine Landscape. For Ecol Manage 254:85-95
  • Puettmann J. K. and M. Saunders. 2001. Patterns of growth compensation in easternwhite pine (Pinus strobus L.): the influence of herbivory intensity and competitiveenvironments. Oecolgia 129 (3): 376-384.
  • Riegel, G. M., Miller, R.F., Krueger, W.C. 1992. Competition for Resources Between Understory Vegetation and Overstory Pinus ponderosa in Northeastern Oregon. Ecol Appl 2(1): 71-85.
  • Rocca, M.E. and B. Wolk. 2009. Thinning and chipping small-diameter ponderosa pine changes understory plant communities on the Colorado Front Range. For Ecol Manage 257(1): 85-95.
  • Rajora, O. P., Mosseler, A., and J. E. Major. 2002. Mating system and reproductive fitness traits of eastern white pine (Pinus strobus) in large, central versus small, isolated, marginal populations. Can J Bot 80(11): 1173-1184.
  • Schaberg, P. G., Nijensohn, S.E., Hawley, G. J., and D. H DeHayes. 2008. Anthropogenic alterations of genetic diversity within tree populations: Implications for forest ecosystem resilience. For Ecol Manage 256(5): 855-862.
  • Scholl, A. E. and A. H. Taylor. 2006. Regeneration patterns in old-growth red fir-western white pine forests in the northern Sierra Nevada, Lake Tahoe, USA. For Ecol Manage 235 (2): 143-154.
  • Stadt, K. J., Huston, C., Coates, K.D., Feng, Z., Dale, M. R. T., and V. J. Liefers. 2007. Evaluation of competition and light estimation indices for predicting diameter growth in mature boreal mixed forests. Ann For Sci, 64(5): 477-490.
  • Sullivan, T.P., Sullivan, D.S., and Lindgren, P.M.F. 2001. Influence of variable retention harvests on forest ecosystems. I. Diversity of stand structure. J Appl Ecol 38(6):1221-33.
  • Weyenberg, S.A., L.E. Frelich, and P.B. Reich. 2004. Logging versus fire: How does disturbance type influence the abundance of Pinus strobus regeneration?. Silva Fennica 38 (2): 179-194.
  • Zhang,S., Burkhart, H.E. and Amateis, R.L. 1996. Modeling individual tree growth for juvenile loblolly pine plantations. For Ecol Manage 89 (157-172).

Acid Rain Lab Articles 2009

  • Balasubramanian, G. Udayasoorian, C. and Prabu, P.C. 2007. Effects of Short-Term Exposure of Simulated Acid Rain on the Growth of Acacia nilotica. J Trop For Sci 19(4): 198-206.
  • Bormann, F.H., Wood, T. 1977. Short-term effects of a simulated acid rain upon the growth and nutrient relations of Pinus strobus L. Water, Air and Soil Pollution 7:479-88.
  • Buso D.C., Driscoll C.T., Likens G.E. 1996. Long-Term Effects of Acid Rain: Response and Recovery of a Forest Ecosystem. Science, New Series, 272(5259): 244-246.
  • Calace, N. , Fiorentini, F., Petronio, B.M., and Peitroletti, M. 2001. Effects of acid rain on soil humic compounds. Talanta, 54 (5): pp. 837-846.
  • Evans S, Lewin KF, Cunningham EA, Patti MJ. 1982. Effects of simulated acidic rain on yields of field-grown crops. L. New Phytologist 91(3):429-41
  • Fan, H. and Wang, Y. 2000. Effects of simulated acid rain on germination, foliar damage, chlorophyll contents and seedling growth of five hardwood species growing in China. For. Ecol. Manage. 126: 321-329.
  • Finzi, C.A. and T.M. Zaccherio . 2007. ATMOSPHERIC DEPOSITION MAY AFFECT NORTHERN HARDWOOD FOREST COMPOSITION BY ALTERING SOIL NUTRIENT SUPPLY. Ecol Appl 17(7): 1929-1941.
  • Hornung,M. and Menchaca,L. (YEAR?) Response of white clover (Trifolium repens L.) and ryegrass (Lolium perenne L.) to acid rain in situations of species interfereneces. New Phytol. 111(3): 483-489
  • Jacobson JS, Garsed SG, Mellanby K, Unsworth MH, Lines R. 1984. Effects of acidic aerosol, fog, mist and rain on crops and trees [and discussion]. Phil Trans Royal Soc London.Series B, Biological Sciences 305(1124, Ecological Effects of Deposited Sulphur and Nitrogen Compounds):327-38.
  • Kelly, J.M. and R.C. Strickland. 1985. Throughfall and plant nutrient concentration response to simulated acid rain treatment. Water, Air, and Soil Pollution 29(3):219-231.
  • Khan, M.R. and Khan, M.W. 1994. Effects of simulated acid rain and root-knot nematode on tomato. Plant Pathology, 43, 41-49.
  • Kim, Yong Ok, Lee, Eun Ju, Rodriguez, Rusty J., and Regina S. Redman. 2008. Phytolacca americana from contaminated and noncontaminated soils of South Korea: Effects of elevated temperature, CO2 and simulated acid rain on plant growth response. Chem Ecol 341(11): 1501-1509
  • Kostka-Rick, R., Manning, W.J. 1992. Effects of ambient rain on field grown-radish: An exploratory approach by multiple linear regression. Water, Air, and Soil Pollution 63 (1-2):1-21.
  • Lee, J.J., Neely, G. E., Perrigan, S.C., L.C. Grothaus. 1981. Effect of simulated sulfuric acid rain on yield, growth and foliar injury of several crops. Env Exp Botany. 21(2):171-185.
  • Liao, B., Liu, H., Zeng, Q., Yu, P., Probst, A., and Probst, J., 2005. Complex toxic effects of Cd2+, Zn2+, and acid rain on growth of kidney bean (Phaseolus vulgaris L), Environment International 30(6): p 891-895.
  • Likens, G., & C. Driscoll. 1996. Long-term effects of acid rain: Response and recovery of a forest ecosystem. Science 272(5259): 244-244.
  • McColl, J.G, Firestone, M.K. 1991. Soil chemical and microbial effects of simulated acid rain on clover and soft chess. Water, Air and Soil Pollution. 60: 301-313.
  • Menon, M., Hermle, S., Gunthardt-Goerg, M., and R. Schulin. 2007. Effects of heavy metal soil pollution and acid rain on growth and water use efficiency of a young model forest ecosystem. Plant & Soil 2(297): 171-183.
  • Neufeld HS, Jernstedt JA, Haines BL. 1985. Direct foliar effects of simulated acid rain. I. damage, growth and gas exchange. New Phytologist 99(3):389-405.
  • Percy, Keven and E. A. Baker. 1986. The Effects of Simulated Acid Rain on Germinative Capacity, Growth and Morphology of Forest Tree Seedlings. New Phytologist 104(3): 473-484.
  • Rinallo, C. and P. Raddi. 1989. Effects of simulated acid rain and ABS on leaf surfaces of some broadleaf seedlings. Euro J For Path 19(3):151-160.
  • Shigihara, A., Kiyoshi Matumoto, Naoki Sakurai, and Manabu Igawa. 2008. Leaching of cell wall components caused by acid deposition on fir needles and trees. Science of the Total Environment 398: 185-195.
  • Silva, L., Oliva, M., Azevedo, A., Araujo, J., and R Aguiar. 2005. Micromorphological and Anatomical Alterations Caused by Simulated Acid Rain in Restinga Plants: Eugenia uniflora and Clusia hilariana. Water, Air Soil Poll J 168:129-143.
  • Singh, A. 2008. Acid Rain and its Ecological Consequences. J Env Biol 29(1): 15-24.
  • Singh, A., and Agrawal, M. 1996. Response of two cultivars of Triticum aestivum L. to simulated acid rain. Env Pollution 91(2):161-7.
  • Singh, B., and M. Agrawal. 2004. Impact of Simulated Acid Rain on Growth and Yield of Two Cultivars of Wheat. Water, Air, and Soil Pollution, 152(1-4): 71-80.
  • Wang, Y., Solberg, S., Yu, P., Myking, T., Vogt, R., and Du, S. 2007. Assessments of tree crown condition of two Masson pine forests in the acid rain region in south China. For Ecol Manage 242(2-3):530-540

Rocky Intertidal Lab Articles 2009

  • Bell, R., Buchsbaum, R., Roman, C., and Chandler, M. 2005. Inventory of Intertidal Marine Habitats, Boston Harbor Islands National Park Area. Northeast Naturalist, 12(3): 169-200.
  • Bertness, M., Crain, C., Sillman, B., Bazterrica, M., Reyna, M., Hildago, F., and J. Farina. 2006. The community structure of western atlantic patagonian rocky shores. Ecological Monographs 3(76):439-460.
  • Carlson, R., Shulman, M., and Ellis, Julie. 2005 . Factors contributing to spatial heterogeneity in the abundance of the common periwinkle Littorina littorea (L.). Journal of Molluscan Studies :1-8.
  • Choi, T. and K. Kwang. (YEAR??) Spatial pattern of intertidal macroalgal assemblages associated with tidal levels. Hydrobiologia 512 (3): 49-56.
  • Connell, J. 1972. Community Interactions on Marine Rocky Intertidal Shores. Annual Review of Ecology and Systematics 3: 169-192.
  • Connolly, S.R. and J. Roughgarden. 1998. A Latitudinal Gradient in Northeast Pacific Intertidal Community Structure: Evidence for an Oceanographically Based Synthesis of Marine Community Theory. American Naturalist 151(4):311-326.
  • Ellis, Derek V. 2003. Rocky shore intertidal zonation as a means of monitoring and assessing shoreline biodiversity recovery. Marine Pollution Bulletin; 46(3): 305-307
  • Guerry, A., Menge, B., Dunmore, R. 2009. Effects of consumers and enrichment on abundance and diversity of benthic algae in a rocky intertidal community. J Exp Mar Biol Ecol 369: 155-164.
  • Jenkins, S.R., Moore, P., Burrows, M.T., Garbary, D.J., Hawkins, S.J., Ingolfsson, A., Sebens, K.P.., Snelgrove, P.V., Wethey, D.S., and Woodin, S.A. 2008. Comparative ecology of North Atlantic shores: Do differences in players matter for process? Ecology 89(11):3-23.
  • Konar, B., Iken, K., and Edwards, M. 2009. Depth-stratified community zonation patterns on Gulf of Alaska rocky shores. Marine Ecology. 30(1): 63-73.
  • Lubchenco, J. 1980. Algal zonation in the New England rocky intertidal community: an experimental analysis. Ecology 61(2):333-344.
  • Lubchenco, J., Menge, BA. 1978. Community development and persistence in a low rocky intertidal zone. Ecological Society of America, 48(1):67-94.
  • Menge, B. 1976. Organization of the new england rocky intertidal community: Role of predation, competition, and environmental heterogeneity. Ecol Monogr 46(4):355-93.
  • Okuda, Takehiro, Noda, Takashi, Yamamoto, Tomoko, Hori, Masakazu, and Nakaoka, Masahiro. 2009. Latitudinal gradients in species richness in assemblages of sessile animals in rocky intertidal zone: mechanisms determining scale-dependent variability. Journal of Animal Ecology, 78, 328-337.
  • Paine, R.T. 2009. A Short-Term Experimental Investigation of Resource Partitioning in a New Zealand Rocky Intertidal Habitat. Ecological Society of America 52 (6): 1096- 1106
  • PATRONELLI, L. I., OLIVERA E.G.1., ZAMPONI, M. 2005. Influence of the intertidal environment on muscle activity in different species of sea anemones (Actiniaria). Animal Biology 55 (2):101-109.
  • Sousa, W.P. 1979. Disturbance in Marine Intertidal Boulder Fields: The Nonequilibrium Maintenance of Species Diversity. Ecology. 60(6):1225-1239
  • Stephenson, T.A., and Stephenson, A., 1949. The universal features of zonation on rocky shores. J Ecology 37, 289–305.
  • Williams, G. A. 1995. Maintenance of zonation patterns in two species of flat periwinkle, Littorina obtusata and L. mariae. Hydrobiologia 309: 143-150.

 

 

 

 

 

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