Why is ecological phenomena difficult to study

Ecology and Society 21 3 Colding, and F. Building resilience and adaptive capacity in social-ecological systems. Pages in F. Berkes, J. Colding, and C. Folke, editors. Navigating social-ecological systems: building resilience for complexity and change. Galaz, V. Moberg, E. Olsson, E. Paglia, and C. Institutional and political leadership dimensions of cascading ecological crises. Public Administration 89 2 Gunderson, L.

Panarchy: understanding transformations in human and natural systems. Island, Washington, D. Ives, C. Abson, H. Dorninger, K. Klaniecki, and J. Reconnecting with nature for sustainability. Sustainability Science Giusti, J. Fischer, D. Abson, K. Klaniecki, C. Dorninger, J. Laudan, S. Barthel, P. Abernethy, B. Raymond, D.

Kendal, and H. Human-nature connection: a multidisciplinary review. Janssen, M. Bodin, J. Anderies, T. Elmqvist, H. Ernstson, R. McAllister, P. Olsson, and P. Toward a network perspective of the study of resilience in social-ecological systems. Ecology and Society 11 1 Kramer, D. Hartter, A. Boag, M. Jain, K. Stevens, K. Nicholas, W. McConnell, and J. Ecology and Society 22 2 Lade, S.

Haider, G. Resilience offers escape from trapped thinking on poverty alleviation. Science Advances 3 5 :e Niiranen, J. Hentati-Sundberg, T. Blenckner, W. Boonstra, K. Orach, M. Quaas, H. An empirical model of the Baltic Sea reveals the importance of social dynamics for ecological regime shifts. Proceedings of the National Academy of Sciences 35 Tavoni, S.

Levin, and M. Regime shifts in a social-ecological system. Theoretical Ecology 6 3 Levin, S. Xepapadeas, A. Norberg, A. Folke, T. Hughes, K. Arrow, S. Barrett, G. Daily, P. Ehrlich, N. Kautsky, K. Polasky, M. Troell, J.

Vincent, and B. Social-ecological systems as complex adaptive systems: modeling and policy implications. Environment and Development Economics 18 2 Lindkvist, E. Basurto, and M. Micro-level explanations for emergent patterns of self-governance arrangements in small-scale fisheries - a modeling approach. PloS one 12 4 :e Lubell, M. Governing institutional complexity: the ecology of games framework. Policy Studies Journal 41 3 Mahon, R. McConney, and R. Governing fisheries as complex adaptive systems.

Marine Policy 32 1 Mancilla Garcia, M. Hertz, and M. Towards a process epistemology: understanding social-ecological SES systems. Environmental Values. Manuel-Navarrete, D.

Double coupling: modeling subjectivity and asymmetric organization in social-ecological systems. Ecology and Society 20 3 Martin, R. Combining system dynamics and agent-based modeling to analyze social-ecological interactions-an example from modeling restoration of a shallow lake. Frontiers in Environmental Science 3. Mason, F. The Newfoundland cod stock collapse: a review and analysis of social factors.

Electronic Green Journal 1 Masterson, V. Stedman, J. Enqvist, M. Giusti, D. Wahl, and U. The contribution of sense of place to social-ecological systems research: a review and research agenda. Ecology and Society 22 1 McGinnis, M. An introduction to IAD and the language of the Ostrom workshop: a simple guide to a complex framework. Policy Studies Journal 39 1 Networks of adjacent action situations in polycentric governance.

Social-ecological system framework: initial changes and continuing challenges. Ecology and Society 19 2 Diekmann, B. Kornilovs, M. Plikshs, and P. Reorganization of a large marine ecosystem due to atmospheric and anthropogenic pressure: a discontinuous regime shift in the Central Baltic Sea.

Global Change Biology 15 6 Moore, M. Olsson, W. Nilsson, L. Rose, and F. Navigating emergence and system reflexivity as key transformative capacities: experiences from a Global Fellowship program.

Ecology and Society 23 2 Nassl, M. Ecosystem services in coupled social - ecological systems: closing the cycle of service provision and societal feedback. AMBIO Olsson, P. Folke, and T. Social-ecological transformation for ecosystem management: the development of adaptive co-management of a wetland landscape in southern Sweden. Ecology and Society 9 4 Navigating the transition to ecosystem-based management of the Great Barrier Reef, Australia.

Proceedings of the National Academy of Sciences Emergence of global adaptive governance for stewardship of regional marine resources. Ecology and Society 18 2 Ostrom, E. Governing the commons. The evolution of institutions for collective action. Understanding institutional diversity. Going beyond panaceas special feature: a diagnostic approach for going beyond panaceas. Proceedings of the National Academy of Sciences 39 A general framework for analyzing sustainability of social-ecological systems.

Science Page, S. What sociologists should know about complexity. Annual Review of Sociology 41 1 Pahl-Wostl, C. A conceptual framework for analysing adaptive capacity and multi-level learning processes in resource governance regimes.

Global Environmental Change 19 3 Partelow, S. Russell, R. Guerry, P. Gould, X. Basurto, K. Chan, S. Klain, J. Levine, and J. Humans and nature: how knowing and experiencing nature affect well-being. Annual Review of Environment and Resources 38 1 Schill, C.

Lindahl, and A. Collective action and the risk of ecosystem regime shifts: insights from a laboratory experiment. Ecology and Society 20 1 Wijermans, M. Cooperation is not enough - exploring social-ecological micro-foundations for sustainable common-pool resource use. Schlosser, M. Orach, E. Lindkvist, R. Martin, N.

Bodin, and W. Towards a methodology for explaining and theorising about social-ecological phenomena. Current Opinion in Environmental Sustainability, in press. Stedman, R. Subjectivity and social-ecological systems: a rigidity trap and sense of place as a way out.

Sustainability Science 11 6 Sterman, J. System dynamics modeling: tools for learning in a complex world. California Management Review 43 4 Stone-Jovicich, S. Probing the interfaces between the social sciences and social-ecological resilience: insights from integrative and hybrid perspectives in the social sciences.

Ecology and Society 20 2 Thompson, E. Radical embodiment: neural dynamics and consciousness. Trends in Cognitive Sciences 5 10 Tilman, D. Fargione, B. Wolff, C. Dobson, R. Howarth, D. Schindler, W. Schlesinger, D. Simberloff, and D. Forecasting agriculturally driven global environmental change. Turner, II, B. Esler, P. Bridgewater, J. Tewksbury, N. Sitas, B. Abrahams, F. Chapin, III, R. Chowdhury, P. Christie, S. Diaz, P. Firth, C. Knapp, J. Kramer, R. Leemans, M. Palmer, D.

Pietri, J. Pittman, J. Shackleton, R. Seidler, B. Socio-environmental systems SES research: what have we learned and how can we use this information in future research programs. Van Oudenhoven, F. Imagining alternative futures through the lens of food in the Afghan and Tajik Pamir Mountains. Walker, B. Resilience practice: building capacity to absorb disturbance and maintain function. West, S. Haider, V. Masterson, J. Enqvist, U. Svedin, and M. Stewardship, care and relational values.

Westley, F. Tjornbo, L. Olsson, C. Folke, B. A theory of transformative agency in linked social-ecological systems.

Ecology and Society 18 3 Wijermans, N. Agent-based case studies for understanding of social-ecological systems: cooperation on irrigation in Bali. What do mitochondrial and thylakoid membranes have in common. What is the term for any organism that obtains its energy by eating other organisms. What is the name of an organism that eats only plants. Q: Why are many ecological phenomena difficult to study?

Write your answer Related questions. Why are many ecological phenomena diffucult to study? Is meteorology the study of tornadoes? An ecological land classification system? Why is it difficult to study Precambrian time?

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What is difficult to overcome? How many ecological zones make up the benthic environment? What are 10 examples of physical science? Study Guides. However, across the 28 LTER sites, the majority confined to the United States, there is representation of only a fraction of earth's ecosystems and they do not capture the large-scale geographic variation typical of ecosystems.

Therefore, the inferences generated by this small sample size of long-term research programs are constrained by the limited funding provided by governmental and nongovernmental funding sources. This is contribution no. The data sets generated by this study and the R code used for all analyses are available on request. Correspondence and requests for materials should be addressed to MHC. None of the authors declare any conflict of interest.

Complex species interactions and the dynamics of ecological systems: Long-term experiments. Science , : — Google Scholar. Callahan JT. Long-term ecological research. BioScience , 34 : — Trophic cascades, nutrients, and lake productivity: Whole-lake experiments. Ecological Monographs , 71 : — Carpenter SR et al.

Early warnings of regime shifts: A whole-ecosystem experiment. Individuals and populations: The role of long-term, individual-based studies of animals in ecology and evolutionary biology. Trends in Ecology and Evolution , 25 : — Long-Term Studies of Vertebrate Communities.

Academic Press. Google Preview. Connell JH. Diversity in tropical rain forests and coral reefs. A long-term study of competition and diversity of corals. Ecological Monographs , 74 : — Doak DF et al. Understanding and predicting ecological dynamics: Are major surprises inevitable?

Contributions of long-term research and time-series observations to marine ecology and biogeochemistry. Annual Review of Marine Science , 1 : — Multi-decadal oceanic ecological datasets and their application in marine policy and management. Sea otters: Their role in structuring nearshore communities. Killer whale predation on sea otters linking oceanic and nearshore ecosystems.

Cambridge University Press. Contributions of the long-term ecological research program. BioScience , 40 : — Journal impact measures in bibliometric research. Scientometrics , 53 : — Recovery of polluted ecosystems: The case for long-term studies. Marine Environmental Research , 54 : — Taking the pulse of marine ecosystems: The importance of coupling long-term physical and biological observations in the context of global change biology.

Oceanography , 26 : — Hubbell SP. Princeton University Press. Keeling R. Recording Earth's vital signs. Legg CJ , Nagy L. Why most conservation monitoring is, but need not be, a waste of time. Journal of Environmental Management , 78 : — Likens GE , ed. Acid rain: A serious regional environmental problem. Effects of forest cutting and herbicide treatment on nutrient budgets in the Hubbard Brook Watershed—Ecosystem. Ecological Monographs , 40 : 23 — Acid rain. Environment , 14 : 33 — Long-term effects of acid rain: Response and recovery of a forest ecosystem.

Adaptive monitoring: A new paradigm for long-term research and monitoring. Trends in Ecology and Evolution , 24 : — The science and application of ecological monitoring. Biological Conservation , : — Lindenmayer DB et al. Value of long-term ecological studies. Austral Ecology , 37 : — Experimental studies of adaptive differentiation in Bahamian Anolis lizards. Genetica , — : — Who needs environmental monitoring? Magnuson JJ. Long-term ecological research and the invisible present.

Long-term datasets in biodiversity research and monitoring: Assessing change in ecological communities through time. Monitoring does not always count. McGowan JA. Climate and change in oceanic ecosystems: The value of time-series data. Trends in Ecology and Evolution , 5 : — Mills JA et al. Archiving primary data: Solutions for long-term studies. Trends in Ecology and Evolution , 30 : — Solutions for archiving data in long-term studies: A reply to Whitlock et al. Our Study Process. National Academies.

Endeavour , 35 : 30 — Monitoring for conservation. Trends in Ecology and Evolution , 21 : — Comparison of population energy flow of a herbivorous and a deposit-feeding invertebrate in a salt marsh ecosystem. Proceedings of the National Academy of Sciences , 45 : — Paine RT. Food web complexity and species diversity.

American Naturalist , : 66 — Peters DP. Accessible ecology: Synthesis of the long, deep, and broad. Peterson RO. Wolf—moose interaction on Isle Royale: The end of natural regulation?

Rohani P , King AA. Never mind the length, feel the quality: The impact of long-term epidemiological data sets on theory, application and policy. Scheffer M. Complex systems: Foreseeing tipping points. Nature , : — Catastrophic shifts in ecosystems. Schindler DE , Hilborn R. Prediction, precaution, and policy under global change.

Devastation of prey diversity by experimentally introduced predators in the field. Patterns of predation in a diverse predator—prey system. Long-term variation in the effect of lizards on spider density is linked to rainfall. Oecologia , : — Climatic control of trophic interaction strength: The effect of lizards on spiders Oecologia , : — Teal JM. Energy flow in the salt marsh ecosystem of Georgia. Ecology , 43 : — Tilman D. Experimental and observational studies of diversity, productivity, and stability.

Whitlock MC et al.