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Lawrence R. Walker and his Primary S uccession Studies. Xuan Chen BIOL 7083 - Community Ecology Presentation. http://kariecology.blogspot.com/2011/02/succession.html. Contents . Introduction of L. R. Walker His primary succession studies His other research
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Lawrence R. Walker and his Primary Succession Studies Xuan Chen BIOL 7083 - Community Ecology Presentation http://kariecology.blogspot.com/2011/02/succession.html
Contents • Introduction of L. R. Walker • His primary succession studies • His other research • His influence on community ecology studies
Character Intro Ph.D., University of Alaska, Fairbanks, 1985 Stanford University University of Hawaii University of Puerto Rico University of Nevada, professor of Department of Biological Science (1) Succession in plant communities (2) Community responses to disturbance (3) Restoration http://sols.unlv.edu/Walker/LR%20Walker.htm
Contents • Introduction of L. R. Walker • His primary succession studies • His other research • His influence on succession studies
Primary Succession Studies Succession – directionalchange in community composition at a site, initiated by natural or anthropogenic disturbance, or the creation of a new site. Copy from Dr. Kyle Harms’ slides
Primary Succession Studies Connell and Slatyer, 1977, The American Naturalist
Primary Succession Studies Disturbance (new habitat) Early succession species Facilitate Neutral Inhibit Primary succession Secondary succession Later succession species Stable ecosystem
Primary Succession Studies Primary succession can be defined as directional changesin plant communities after severe disturbances that leave no soil layers intact, or the creation of a new site. Methods (1) Fieldobservations and experiments (such as artificial fertilization, transplanting and sowing of seeds) (2) Growth experiments under more controlled greenhouse conditions (3) Labanalyses of plant and soil nutrients
Primary Succession Studies • Primary succession: nitrogen limited • Later, P (and/or other elements) but not nitrogen limited Walker & Syers, 1976, Geoderma
Primary Succession Studies Glacial moraines in Alaska River floodplains in Alaska Landslides in Puerto Rico Volcanic substrates in Hawaii http://www.journalofecology.org/view/0/edchoice983.html http://ecolibrary.org/page/dp430 science.nature.nps.gov/im/units/swan/vs/repeat_photo http://news.lternet.edu/images/taiga-floodplain-tanana-river-alaska
Primary Succession Studies Glacial moraines in Alaska River floodplains in Alaska Landslides in Puerto Rico Volcanic substrates in Hawaii http://www.journalofecology.org/view/0/edchoice983 http://ecolibrary.org/page/dp430 science.nature.nps.gov/im/units/swan/vs/repeat_photo http://news.lternet.edu/images/taiga-floodplain-tanana-river-alaska
Life history traits Stochastic events Fluvial processes, timing, intensity, and scale of riverine disturbance Seed rain
Low seed rain High seed rain Walker et al., 1986, Ecology
Life history traits Stochastic events Fluvial processes, timing, intensity, and scale of riverine disturbance Growth rate Life span Seed rain
Primary succession: nitrogen limited, need nitrogen fixer Nitrogen fixer Inhibit Dense litter layer Seeding germination and establishment Snowshoe hare Seeding mortality Reduced light intensity Thick stands Root competition Seeding growth Allelopathy
Primary Succession Studies Inhibit Glacial moraines in Alaska River floodplains in Alaska Landslides in Puerto Rico Volcanic substrates in Hawaii http://www.journalofecology.org/view/0/edchoice983.html http://ecolibrary.org/page/dp430 science.nature.nps.gov/im/units/swan/vs/repeat_photo http://news.lternet.edu/images/taiga-floodplain-tanana-river-alaska
spruce alder Dryas
Seed dispersal Dryas alder spruce
Shade out • Herbivores and pathogens • Allelopathy spruce alder Dryas
Life history • Species interaction • Environmental factors their relative importance changes through succession
Primary Succession Studies Complex Inhibit Glacial moraines in Alaska River floodplains in Alaska Landslides in Puerto Rico Volcanic substrates in Hawaii http://www.journalofecology.org/view/0/edchoice983.html http://ecolibrary.org/page/dp430 science.nature.nps.gov/im/units/swan/vs/repeat_photo http://news.lternet.edu/images/taiga-floodplain-tanana-river-alaska
Upper zone: nearly complete removal of soil and vegetation Islands Lower zone: heterogeneous mixture of broken plants parts, and soil
Elevation • Size • Land use history • Surrounding vegetation • Soil development • Biotic interaction
Stochastic Locally Regionally Predictable
Primary Succession Studies Complex Inhibit Glacial moraines in Alaska River floodplains in Alaska Scale Landslides in Puerto Rico Volcanic substrates in Hawaii http://www.journalofecology.org/view/0/edchoice983.html http://ecolibrary.org/page/dp430 science.nature.nps.gov/im/units/swan/vs/repeat_photo http://news.lternet.edu/images/taiga-floodplain-tanana-river-alaska
MyricafayaMetrosiderospolymorpha Myricafaya Myricafaya nitrogen canopy seedling germination root competition Leaf litter Metrosiderospolymorpha
Pioneer species Later species compete severe facilitate environmental severity facilitate compete suitable
Pioneer species Later species facilitate inhibit environmental severity / succession stages
Opportunities for studies of succession http://www.mass.gov/dcr/watersupply/watershed/biodiversity.htm http://www.mass.gov/dcr/watersupply/watershed/biodiversity.htm http://www.flickr.com/photos/bpamerica/5145807500/sizes/m/in/photostream/ We can imagine a study that investigates succession after invasionof a non-native as a result of climate changethat might be used to suggest restoration measures to protect local biodiversity
Contents • Introduction of L. R. Walker • His primary succession studies • His other research • His influence on succession studies
(1) Chronosequences study ? succession Long term without disturbance
succession Long term without disturbance Decline phase significant reduction in ecosystem productivity and standing plant biomass
Later, P (and/or other elements) but not nitrogen limited Wardle et al., 2004, Science
biomass herbaceous richness tree
(2) Restoration Site amelioration Development of community structure Nutrient dynamics Species life history traits Species interactions Modeling the transitions between successional stages and how those stages fit together into trajectories Succession Restoration
Clarify successional processes Improve the predictability of succession Succession Restoration
(3) Invasive ecology (4) Hurricane ecology ……
Contents • Introduction of L. R. Walker • His primary succession studies • His other research • His influence on succession studies
Primary succession is complex • Study methods • Restoration
Thank you http://mrswolfgang.wikispaces.com/Peace+Neal+-+Ecological+Succession
References • Bellingham, P.J., Peltzer, D.A., Lawrence R. Walker, L. R. 2005. Contrasting impacts of a native and an invasive exotic shrub on flood-plain succession. Journal of Vegetation Science 16 (1): 135-142. • Callaway, R.M. and L.R. Walker. 1997. Competition and facilitation: A synthetic approach to interactions in plant communities. Ecology 78:1958-1965. • Chapin, F.S., Walker, L.R., Fastie, C.L., Sharman, L.C. 1994. Mechanisms of Primary Succession Following Deglaciation at Glacier Bay, Alaska. Ecological Monographs 64:149–175. • Myster, R.W., Walker, L R. 1997. Plant successional pathways on Puerto Rican landslides. Journal of Tropical Ecology 13 (2): 165-173. • Prach, K., Walker, L R. 2011. Four opportunities for studies of ecological succession. Trends in Ecological and Evolution 26 (3): 119-123. • Shiels, A.B., Walker, L.R. 2003. Bird perches increase forest seeds on Puerto Rican landslides. Restoration Ecology 11: 1-9. • Vitousek, P.M., Walker, L.R. 1989. Biological invasion by Myricafaya in Hawaii: Plant demography, nitrogen fixation, and ecosystem effects. Ecological Monographs 59:247- 265. • Vitousek, P.M., Walker, L.R., Whiteaker, L.D. 1993. Nutrient Limitations to plant-growth during primary succession in Hawaii-volcanos National Park. Biogeochemistry 23 (3): 197-215. • Vitousek, P.M., Walker, L.R., Whiteaker, L.D., Muellerdombois, D., Matson P.A. 1987. Biological invasion by Myricafaya alters ecosystem development in Hawaii. Science 238 (4282):802-804. • Walker, L. R., Chapin, III. F. S. 1986. Physiological controls over seedling growth in primary succession on an Alaskan floodplain. Ecology 67: 1508 1523. • Walker, L.R., del Moral, R.2009. Lessons from primary succession for restoration of severely damaged habitats. Applied Vegetation Science 12: 55-67. • Walker, L.R., Bellingham, P.B., Peltzer, D.A. 2006. Plant characteristics are poor predictors of microsite colonization during the first two years of primary succession. Journal of Vegetation Science 17:397-406. Walker, L.R., Clarkson, B.D., Silvester, W., Clarkson, B.R. 2003. Colonization dynamics and facilitative impacts of a nitrogen-fixing shrub in post-volcanic primary succession. Journal of Vegetation Science 14: 277-290.Walker, L. R., Zasada, J. C., Chapin, III. F. S. 1986. The role of life history processes in primary succession on an Alaskan floodplain. Ecology 67: 1243 1253. • Walker, L.R., Zimmerman, J.K., Lodge, D.J., Guzmán-Grajales, S. 1996. An altitudinal comparison of growth and species composition in hurricane-damaged forests in Puerto Rico. Journal of Ecology 84: 877-889. Walker, L.R., Voltzow, J., Ackerman, J.D., Fernandez, D.S., Fetcher, N. 1992. Immediate impact of Hurricane Hugo on a Puerto Rican rain forest. Ecology 73:691-694.Walker, L.R., Zarin, D., Fetcher, N., Myster, R., Johnson, A. 1996. Ecosystem development and plant succession on landslides in the Caribbean. Biotropica 28: 566-576. • Wardle, D., Walker, L.R., Bardgett, R.D. 2004. Ecosystem properties and forest decline in contrasting long term chronosequences. Science 305:509-513.