Showing posts with label ecology. Show all posts
Showing posts with label ecology. Show all posts

Friday, October 26, 2018

Do the economics and logistics of field ecology bias our understanding of environmental problems?

Location of Antarctic field stations. Image from Wikipedia.


Field ecology is difficult, time-consuming and expensive. Ecologists need to make decisions about where to do research, and if research questions focus on remote locations, there are likely a lot of constraints limiting options. For example, if research requires work in the Antarctic, odds are you'll be working at one of a few locations on the coast which, depending on the nature of the research, could bias our understanding of ecological or geological processes operating there.

The research needed for some questions can literally occur almost anywhere without much worry about how local context biases findings. That's not to say that local context will not play a role in ecological dynamics, and we should always be mindful of how local conditions influence the processes we are interested in. However, some questions are sufficiently general that we could envisage running an experiment in our backyard. However, there are research questions that necessitate careful consideration of the geographical location of research.

This is especially true for questions that pertain to the consequences of environmental change on ecological systems. The drivers of environmental change, whether it be pollution, nutrient deposition, changing temperature, extreme weather events or changes in precipitation patterns, all vary across the Earth and their impacts are similarly unequal. We shouldn't expect that a 2 degree C increase in average temperature to have the same effect in the tropics as, say, the arctic.

Location of Nutrient Network sites used in Borer et al. 2014
For some research endeavors, the solution to ensuring geographical coverage has been to replicate studies around the world. Take for example studying the effects of nutrient deposition in grasslands. There is a long history of ecologists adding nitrogen, phosphorus, and other nutrients to grasslands at specific locations in short duration experiments. These studies can tell us about how plant dominance might change, but it is difficult to extend this research to other locations facing different nutrient change patterns or that are inherently structured differently. The solution to this shortcoming is best represented by the globally distributed Nutrient Network experiment. The global experiment includes dozens of sites around the world that all replicate a basic set of experimental applications of plant nutrients, which has resulted in some very influential papers about global change effects on grasslands (e.g., Adler et al. 2011, Borer et al. 2014, Seabbloom et al. 2015).

This issue of the geography of research biasing our understanding of the impacts of global change is especially true for understanding the consequences of climate change in the Arctic. This was highlighted superbly by Metcalfe and colleagues recently (Metcalfe et al. 2018). They showed that most of the terrestrial ecology research in the Arctic has occurred in just a few places. And while this work has been extremely impactful and important for understanding the ecology of Arctic systems, they are not located in places undergoing the most drastic changes in climate. Therefore, because of the geographical location of research, we might not have a very good understanding of the impacts of climate change on Arctic ecosystems.

Where research is being done in the Arctic. Panel 'a' shows where publications are coming from and 'b' shows the impact in terms of number of citations (from Metcalfe et al. 2018).
This shows where photosynthesis has changed the most, which does not correspond well to where the research has been done (from Metcalfe et al. 2018).


This type of mismatch in climate change and research requires that ecologists purposefully establish research sites in areas that are rapidly changing. Metcalfe and colleagues suggest that the governments of Arctic nations establish focused research funding to support and promote research in these regions. This of course requires government dedication. The reality is it is cheaper and more efficient to do more research in existing, well supplied, field stations. Arctic scientists and professional organizations need to lobby environment or research government departments, and this research gap is an opportunity for Arctic governments to cooperate and share research costs.


References
Adler, P. B., E. W. Seabloom, E. T. Borer, H. Hillebrand, Y. Hautier, A. Hector, W. S. Harpole, L. R. O’Halloran, J. B. Grace, T. M. Anderson, J. D. Bakker, L. A. Biederman, C. S. Brown, Y. M. Buckley, L. B. Calabrese, C.-J. Chu, E. E. Cleland, S. L. Collins, K. L. Cottingham, M. J. Crawley, E. I. Damschen, K. F. Davies, N. M. DeCrappeo, P. A. Fay, J. Firn, P. Frater, E. I. Gasarch, D. S. Gruner, N. Hagenah, J. Hille Ris Lambers, H. Humphries, V. L. Jin, A. D. Kay, K. P. Kirkman, J. A. Klein, J. M. H. Knops, K. J. La Pierre, J. G. Lambrinos, W. Li, A. S. MacDougall, R. L. McCulley, B. A. Melbourne, C. E. Mitchell, J. L. Moore, J. W. Morgan, B. Mortensen, J. L. Orrock, S. M. Prober, D. A. Pyke, A. C. Risch, M. Schuetz, M. D. Smith, C. J. Stevens, L. L. Sullivan, G. Wang, P. D. Wragg, J. P. Wright, and L. H. Yang. 2011. Productivity Is a Poor Predictor of Plant Species Richness. Science 333:1750-1753.

Borer, E. T., E. W. Seabloom, D. S. Gruner, W. S. Harpole, H. Hillebrand, E. M. Lind, P. B. Adler, J. Alberti, T. M. Anderson, J. D. Bakker, L. Biederman, D. Blumenthal, C. S. Brown, L. A. Brudvig, Y. M. Buckley, M. Cadotte, C. Chu, E. E. Cleland, M. J. Crawley, P. Daleo, E. I. Damschen, K. F. Davies, N. M. DeCrappeo, G. Du, J. Firn, Y. Hautier, R. W. Heckman, A. Hector, J. HilleRisLambers, O. Iribarne, J. A. Klein, J. M. H. Knops, K. J. La Pierre, A. D. B. Leakey, W. Li, A. S. MacDougall, R. L. McCulley, B. A. Melbourne, C. E. Mitchell, J. L. Moore, B. Mortensen, L. R. O'Halloran, J. L. Orrock, J. Pascual, S. M. Prober, D. A. Pyke, A. C. Risch, M. Schuetz, M. D. Smith, C. J. Stevens, L. L. Sullivan, R. J. Williams, P. D. Wragg, J. P. Wright, and L. H. Yang. 2014. Herbivores and nutrients control grassland plant diversity via light limitation. Nature 508:517-520.

Metcalfe, D. B., T. D. Hermans, J. Ahlstrand, M. Becker, M. Berggren, R. G. Björk, M. P. Björkman, D. Blok, N. Chaudhary, C. J. N. e. Chisholm, and evolution. 2018. Patchy field sampling biases understanding of climate change impacts across the Arctic. Nature Ecology & Evolution 2:1443.




Seabloom, E. W., E. T. Borer, Y. M. Buckley, E. E. Cleland, K. F. Davies, J. Firn, W. S. Harpole, Y. Hautier, E. M. Lind, A. S. MacDougall, J. L. Orrock, S. M. Prober, P. B. Adler, T. M. Anderson, J. D. Bakker, L. A. Biederman, D. M. Blumenthal, C. S. Brown, L. A. Brudvig, M. Cadotte, C. Chu, K. L. Cottingham, M. J. Crawley, E. I. Damschen, C. M. Dantonio, N. M. DeCrappeo, G. Du, P. A. Fay, P. Frater, D. S. Gruner, N. Hagenah, A. Hector, H. Hillebrand, K. S. Hofmockel, H. C. Humphries, V. L. Jin, A. Kay, K. P. Kirkman, J. A. Klein, J. M. H. Knops, K. J. La Pierre, L. Ladwig, J. G. Lambrinos, Q. Li, W. Li, R. Marushia, R. L. McCulley, B. A. Melbourne, C. E. Mitchell, J. L. Moore, J. Morgan, B. Mortensen, L. R. O'Halloran, D. A. Pyke, A. C. Risch, M. Sankaran, M. Schuetz, A. Simonsen, M. D. Smith, C. J. Stevens, L. Sullivan, E. Wolkovich, P. D. Wragg, J. Wright, and L. Yang. 2015. Plant species' origin predicts dominance and response to nutrient enrichment and herbivores in global grasslands. Nat Commun 6.

Tuesday, December 13, 2016

150 years of 'ecology'

The word ‘ecology’ was coined 150 years ago by Ernst Haeckel in his book Generelle Morphologie der Organismen published in 1866. Mike Begon gave a fascinating talk at the British Ecological Society meeting in Liverpool on what ecology as meant over these past 150 years and what it should mean in the future. The description of ecology that follows, is largely taken from Begon’s remarks.

Ernst Haeckel, 1860
Haeckel defined ecology as ‘the science of the relations of organism to its surrounding outside world (environment)’, which is in obvious contrast to the then burgeoning science of physiology, which was concerned with the world inside of an organism. Interestingly, the first 50 years of this new field of ecology was dominated by the study of plants. In America, Clements, while in the UK, Tansley, both saw ecology as the description of patterns of plant in relation to the outside world. In many ways, this conception of ecology was what Haeckel had envisioned.

Frederic Clements

However, by the 1960s, the domain of ecology began to grow rapidly. Ecologists like Odum used ‘ecology’ to mean the structure and function of ecosystems, while others focussed on the abundance and distribution of species. By this time ecology had grown to encapsulate all aspects of organismal patterns and functions in nature.

The post-60s period saw another expansion -namely the value of ecology. While Begon points out that text books, including his, focussed on the science of ecology in its pure form, many were ignoring the fact that ecology had/has important repercussions for how humanity will need to deal with the massive environmental impacts we’ve had on Earth’s natural systems. That is, the science of ecology can provide the foundation by which applied management solutions can be built. I personally believe that applied ecology has only just begun its ascension to being the most important element of ecological science (but I’m biassed -being the Executive Editor of the Journal of Applied Ecology). Just like how human physiology has become problem oriented, often focussed on human disease, ecology will too become more problem oriented and focus on our sick patients.


Begon went on to say what ecology should be in the near future. He juxtaposed the fact and truth based necessity of science to the post-truth Brexit/Trump era we now find ourselves in. If ecologists and scientists are to engage the public, and alter self-destructive behaviours, it cannot be with logic and evidence alone. He argued that we need to message like those post-truthers. Use metaphors, simple messages that are repeated, repeated, and repeated.