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Visualizing riverine landscapes Pool/riffle Landscape Microhabitat.

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Presentation on theme: "Visualizing riverine landscapes Pool/riffle Landscape Microhabitat."— Presentation transcript:

1 Visualizing riverine landscapes Pool/riffle Landscape Microhabitat

2 Continuous patterns and processes River continuum concept (Vannote et al. 1980)

3 Fish distribution along the longitudinal stream profile (Li et al. 1987) Distance upstream Coldwater Coolwater Warmwater

4 Site-based approach (Rahel and Hubert. 1991)

5 A more spatially continuous approach…

6 Perception and pattern recognition (Watanabe 1985) Wittgenstein’s duck-rabbit Seeing Thinking

7 Pattern detection f (grain, extent) (Wiens 1989) Grain, extent and pattern detection

8 Spatial scope (Schneider 1994) Scope extent grain Landsat TM 3.8 x 10 7 Human (20/20) 9.7 x 10 7 Eagle 1.7 x 10 9

9 Changes in scope as a function of grain and extent Increases in extent AND decreases in grain size Increases in extent ONLY

10 Scope of spatially continuous versus site- based sampling The inferred component of a survey is the magnification factor 1 n / scope n = 22 S = 22 n = 4 n = 4 S = 16

11 Increasing the scope of stream research fishes New approaches for sampling lotic environments

12 Intensive sampling Backpack electrofishing Boat electrofishing

13 Backpack electrofishing Underwater surveys Extensive sampling Remote sensing

14 “a choice has to be made between a traditional measurement method, with known characteristics, and a newer one with greater capacity but less well known performance” (Schneider 1994)

15 Extensive sampling Underwater surveys

16 Patchiness in fish distribution

17 Airborne remote sensing

18 Thermal heterogeneity

19 Gather information to enable pattern detection.Gather information to enable pattern detection. Maintain flexibility across scales as opposed to identifying the “appropriate” scale.Maintain flexibility across scales as opposed to identifying the “appropriate” scale. Incorporate spatial context into ecological models as additional information rather than noise.Incorporate spatial context into ecological models as additional information rather than noise. Conclusions

20 1.View aquatic and terrestrial systems as landscapes in and of themselves—as riverscapes, seascapes, thermal landscapes, etc. Recommendations

21 Thermal landscapes in forests (Lutz et al. 2012)

22 2.Integrate site-based studies and spatially continuous sampling to place distributional surveys within a temporal context. Recommendations (continued)

23 Spatiotemporal tradeoffs of site-based vs. spatially continuous sampling

24 Role of fish movement? Temporal patterns (Baxter 2002) ? ? ?

25 Thermal mappingThermal mapping Spatially continuousSpatially continuous Multiple scalesMultiple scales Site-based monitoringSite-based monitoring Temporally continuousTemporally continuous Seasonal trendsSeasonal trends An integrated approach 6/237/138/28/229/11 Day Water temperature (°C)

26 3.Incorporate pattern detection explicitly as a part of the scientific process. Recommendations (continued)

27 Scope and scientific discovery Geller, M. J., and J. P. Huchra. 1989. Mapping the universe. Science 246:897-903. Mapping galaxies using a less precise, but higher-scope, method.

28 The search for patterns in ecology Experimentation Pattern detection Mathematical models Prediction (Lawton 1996)

29 “Now, here, you see, it takes all the running you can do to, to keep in the same place. If you want to get somewhere else, you must run at least twice as fast as that!” L. Carroll, Through the Looking-Glass

30 Rahel, F. J., and W. A. Hubert. 1991. Fish assemblages and habitat gradients in a Rocky Mountain-Great Plains stream: Biotic zonation and additive patterns of community change. Transactions of the American Fisheries Society 120:319-332. Schneider, D. C. 2001. The rise of the concept of scale in ecology. BioScience 51:545- 553. Schneider, D. C. 2009. Quantitative ecology: Measurement, models, and scaling. Elsevier, Amsterdam, The Netherlands. Baxter, C. V. 2002. Fish movement and assemblage dynamics in a Pacific Northwest riverscape. Ph.D. dissertation. Oregon State University, Corvallis, Oregon. Torgersen, C. E. 2002. A geographical framework for assessing longitudinal patterns in stream habitat and fish distribution. Ph.D. dissertation. Oregon State University, Corvallis. Lutz, J. A., K. A. Martin, and J. D. Lundquist. 2012. Using fiber-pptic distributed temperature sensing to measure ground surface temperature in thinned and unthinned forests. Northwest Science 86:108-121. Watanabe, S. 1985. Pattern recognition. John Wiley & Sons, Inc., New York. Vannote, R. L., G. W. Minshall, K. W. Cummins, J. R. Sedell, and C. E. Cushing. 1980. The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences 37:130-137. Li, H. W., C. B. Schreck, C. E. Bond, and E. R. Rextad. 1987. Factors influencing changes in fish assemblages of Pacific Northwest streams. Pages 192-202 in W. J. Matthews and D. C. Heins, editors. Community and evolutionary ecology of North American stream fishes. University of Oklahoma Press, Norman, Oklahoma. Schneider, D. C. 1994. Quantitative ecology: Spatial and temporal scaling. Academic Press, San Diego, California. Lawton, J. H. 1999. Are there general laws in ecology? Oikos 84:177-192.

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