The Effect of Spatial and Temporal Heterogeneity on the Design and Analysis of Empirical Studies of Scale‐Dependent Systems
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Judi E Hewitt | Simon F Thrush | Paul K Dayton | Erik Bonsdorff | E. Bonsdorff | S. Thrush | J. Hewitt | P. Dayton
[1] Christoffer Boström,et al. Recruitment and population maintenance of the bivalve Macoma balthica (L) - Factors affecting settling success and early survival on shallow sandy bottoms , 1995 .
[2] Paul J. Somerfield,et al. A comparison of the power of categorical and correlational tests applied to community ecology data from gradient studies , 2002 .
[3] Stephen P. Hubbell,et al. Species‐Area Curves, Diversity Indices, and Species Abundance Distributions: A Multifractal Analysis , 2002, The American Naturalist.
[4] S. Carpenter,et al. Ecological forecasts: an emerging imperative. , 2001, Science.
[5] L. Hedges,et al. Meta-analysis: Combining the results of independent experiments , 1993 .
[6] A. B. Hill. The Environment and Disease: Association or Causation? , 1965, Proceedings of the Royal Society of Medicine.
[7] David C. Schneider,et al. Matching the outcome of small-scale density manipulation experiments with larger scale patterns: an example of bivalve adult/juvenile interactions , 1997 .
[8] M. Hodda,et al. Variation in estuarine littoral nematode populations over three spatial scales. , 1990 .
[9] R. Callaway,et al. Abiotic Stress and the Relative Importance of Interference and Facilitation in Montane Bunchgrass Communities in Western Montana , 1996, The American Naturalist.
[10] DAVID SCHNEIDER,et al. Equalisation of prey numbers by migratory shorebirds , 1978, Nature.
[11] G A Fox,et al. Practical causal inference for ecoepidemiologists. , 1991, Journal of toxicology and environmental health.
[12] F. H. Rigler,et al. Recognition of the Possible: An Advantage of Empiricism in Ecology , 1982 .
[13] P. Chesson,et al. Scaling up population dynamics: integrating theory and data , 2005, Oecologia.
[14] Pierre Legendre,et al. Integrating heterogeneity across spatial scales: interactions between Atrina zelandica and benthic macrofauna , 2002 .
[15] P. Herman,et al. Multi-scale analysis of species-environment relationships , 2005 .
[16] Robert D. Holt,et al. RESOLVING ECOLOGICAL QUESTIONS THROUGH META‐ANALYSIS: GOALS, METRICS, AND MODELS , 1999 .
[17] Lauri Oksanen,et al. Logic of experiments in ecology: is pseudoreplication a pseudoissue? , 2001 .
[18] Brian D. Inouye,et al. THE IMPORTANCE OF THE VARIANCE AROUND THE MEAN EFFECT SIZE OF ECOLOGICAL PROCESSES: COMMENT , 2005 .
[19] B. Cade,et al. Estimating effects of limiting factors with regression quantiles , 1999 .
[20] Michael Elliott. Detecting ecological impacts: Concepts and applications in coastal habitats , 1997 .
[21] Pierre Legendre,et al. Nonlinear foraging response of a large marine predator to benthic prey: eagle ray pits and bivalves in a New Zealand sandflat , 1997 .
[22] Robert V. O'Neill,et al. IS IT TIME TO BURY THE ECOSYSTEM CONCEPT? (WITH FULL MILITARY HONORS, OF COURSE!)1 , 2001 .
[23] S. Levin. THE PROBLEM OF PATTERN AND SCALE IN ECOLOGY , 1992 .
[24] M. Tegner,et al. TEMPORAL AND SPATIAL SCALES OF KELP DEMOGRAPHY: THE ROLE OF OCEANOGRAPHIC CLIMATE , 1999 .
[25] Enric Sala,et al. Natural History: the sense of wonder, creativity and progress in ecology* , 2001 .
[26] Glenn De'ath,et al. IDENTIFYING ECOLOGICAL CHANGE AND ITS CAUSES: A CASE STUDY ON CORAL REEFS , 2004 .
[27] R. O'Neill,et al. Ecological Society of America IS IT TIME TO BURY THE ECOSYSTEM CONCEPT ? ( WITH FULL MILITARY HONORS , OF COURSE ! ) , 2001 .
[28] B. Cade,et al. QUANTILE REGRESSION REVEALS HIDDEN BIAS AND UNCERTAINTY IN HABITAT MODELS , 2005 .
[29] Simon F. Thrush,et al. Variable effect of a large suspension-feeding bivalve on infauna: experimenting in a complex system , 2001 .
[30] C. Smith,et al. The effects of patch size and substrate isolation on colonization modes and rates in an intertidal sediment , 1989 .
[31] Erik Bonsdorff,et al. Population responses of coastal zoobenthos to stress induced by drifting algal mats , 1996 .
[32] JAMES R. MILLER,et al. Spatial Extrapolation: The Science of Predicting Ecological Patterns and Processes , 2004 .
[33] Erik Bonsdorff,et al. Drifting algae and zoobenthos — Effects on settling and community structure , 1992 .
[34] Daniel Simberloff,et al. Community Ecology: Is It Time to Move On? , 2004, The American Naturalist.
[35] L. Benedetti‐Cecchi. The importance of the variance around the mean effect size of ecological processes , 2003 .
[36] D. R. Strong,et al. Density-vague population change. , 1986, Trends in ecology & evolution.
[37] E. Maggi,et al. INTERACTIVE EFFECTS OF SPATIAL VARIANCE AND MEAN INTENSITY OF GRAZING ON ALGAL COVER IN ROCK POOLS , 2005 .
[38] P. Legendre,et al. Partialling out the spatial component of ecological variation , 1992 .
[39] Francis Juanes,et al. INFERRING ECOLOGICAL RELATIONSHIPS FROM THE EDGES OF SCATTER DIAGRAMS: COMPARISON OF REGRESSION TECHNIQUES , 1998 .
[40] D. J. Futumya,et al. Wherefore and whither the naturalist? , 1998, The American naturalist.
[41] Gordon A. Robilliard,et al. Biological Accommodation in the Benthic Community at McMurdo Sound, Antarctica , 1974 .
[42] H. Stommel,et al. Varieties of Oceanographic Experience , 1963 .
[43] Simon F. Thrush,et al. Adult/juvenile interactions of infaunal bivalves: contrasting outcomes in different habitats , 1996 .
[44] E. Bonsdorff,et al. Drifting algal mats as an alternative habitat for benthic invertebrates: Species specific responses to a transient resource. , 2000, Journal of experimental marine biology and ecology.
[45] J. Bruno,et al. Inclusion of facilitation into ecological theory , 2003 .
[46] Karl Cottenie,et al. Comment to Oksanen (2001): reconciling Oksanen (2001) and Hurlbert (1984) , 2003 .
[47] Lawrence B. Slobodkin,et al. A Critique for Ecology , 1991 .
[48] D. A. Perry,et al. Self-organizing systems across scales. , 1995, Trends in ecology & evolution.
[49] Simon F. Thrush,et al. Scale-Dependent Recolonization: The Role of Sediment Stability in a Dynamic Sandflat Habitat , 1996 .
[50] H. Stommel,et al. Varieties of Oceanographic Experience: The ocean can be investigated as a hydrodynamical phenomenon as well as explored geographically. , 1963, Science.
[51] Jessica Gurevitch,et al. Ecography 25: 601 -- 615, 2002 , 2022 .
[52] Uta Berger,et al. Pattern-Oriented Modeling of Agent-Based Complex Systems: Lessons from Ecology , 2005, Science.
[53] Julian D. Olden,et al. Torturing data for the sake of generality: How valid are our regression models? , 2000 .
[54] Anthony W King,et al. Aggregating Fine-Scale Ecological Knowledge to Model Coarser-Scale Attributes of Ecosystems. , 1992, Ecological applications : a publication of the Ecological Society of America.
[55] J. Platt. Strong Inference , 2007 .
[56] Erik Bonsdorff,et al. Altered Benthic Prey‐Availability Due to Episodic Oxygen Deficiency Caused by Drifting Algal Mats , 1996 .
[57] Annamarie Hatcher,et al. Variation in the components of Benthic community structure in a Coastal Lagoon as a function of Spatial Scale , 1989 .
[58] Simon F. Thrush,et al. The importance of predators on a sandflat: interplay between seasonal changes in prey densities and predator effects , 1994 .
[59] R. Rosenthal. Meta-analytic procedures for social research , 1984 .
[60] G. Belovsky,et al. Ten Suggestions to Strengthen the Science of Ecology , 2004 .
[61] Paul K Dayton,et al. The Importance of the Natural Sciences to Conservation , 2003, The American Naturalist.
[62] Donald L. DeAngelis,et al. UNCERTAINTY IN SPATIALLY EXPLICIT ANIMAL DISPERSAL MODELS , 2003 .
[63] Roy A. Walters,et al. Scale-up of ecological experiments: Density variation in the mobile bivalve Macomona liliana , 1997 .
[64] Göran Englund,et al. The importance of data-selection criteria: meta-analyses of stream predation experiments , 1999 .
[65] Simon F. Thrush,et al. THE GENERALITY OF FIELD EXPERIMENTS: INTERACTIONS BETWEEN LOCAL AND BROAD-SCALE PROCESSES , 2000 .
[66] Simon A. Levin,et al. 2 – Concepts of Scale at the Local Level , 1993 .
[67] Pierre Legendre,et al. Identifying relationships between adult and juvenile bivalves at different spatial scales , 1997 .
[68] J. Lawton. Are there general laws in ecology , 1999 .
[69] M. Bertness,et al. Positive interactions in communities. , 1994, Trends in ecology & evolution.
[70] Johan van de Koppel,et al. Self‐Organization and Vegetation Collapse in Salt Marsh Ecosystems , 2004, The American Naturalist.
[71] C. McCulloch,et al. Quantitative Ecology: Spatial and Temporal Scaling , 1995 .
[72] Jay T. Lennon,et al. Knowing when to draw the line: designing more informative ecological experiments , 2005 .
[73] J. Bence,et al. TEMPORAL AND SPATIAL VARIATION IN ENVIRONMENTAL IMPACT ASSESSMENT , 2001 .
[74] David C. Schneider,et al. Spatial structure of bivalves in a sandflat:: Scale and generating processes , 1997 .
[75] J. Lawton,et al. Linking Species and Ecosystems , 1996 .
[76] M Susser,et al. Rules of inference in epidemiology. , 1986, Regulatory toxicology and pharmacology : RTP.
[77] Jessica Gurevitch,et al. EFFECTS OF SPATIAL STRUCTURES ON THE RESULTS OF FIELD EXPERIMENTS , 2004 .
[78] L. L. Eberhardt,et al. Designing Environmental Field Studies , 1991 .
[79] Peter M. J. Herman,et al. Spatial and temporal variation in benthic macrofauna and relationships with environmental variables in an estuarine, intertidal soft-sediment environment , 2002 .
[80] Joe N. Perry,et al. A method of estimating the slope of upper bounds of plots of body size and abundance in natural animal assemblages , 1992 .
[81] David C. Schneider,et al. Multiscale experimental analysis of aggregative responses of mobile predators to infaunal prey , 1997 .
[82] Craig W. Osenberg,et al. Detecting Ecological Impacts Caused by Human Activities , 1996 .
[83] Alan D. Ansell,et al. Biology and ecology of Shallow coastal waters , 1997 .
[84] J. Platt. Strong Inference: Certain systematic methods of scientific thinking may produce much more rapid progress than others. , 1964, Science.
[85] J. Wiens. Spatial Scaling in Ecology , 1989 .
[86] Katherine L. Gross,et al. WHAT IS THE OBSERVED RELATIONSHIP BETWEEN SPECIES RICHNESS AND PRODUCTIVITY , 2001 .
[87] S. D. Cooper,et al. Scale effects and extrapolation in ecological experiments , 2003 .
[88] Laurent Seuront,et al. Handbook of Scaling Methods in Aquatic Ecology: Measurement, Analysis, Simulation , 2007 .
[89] Simon F. Thrush,et al. MACROBENTHIC RECOVERY PROCESSES FOLLOWING CATASTROPHIC SEDIMENTATION ON ESTUARINE SANDFLATS , 2003 .
[90] Susan S. Bell,et al. Toward a landscape approach in seagrass beds: using macroalgal accumulation to address questions of scale , 1995, Oecologia.
[91] Simon F. Thrush,et al. Emergence and floating behaviours of post‐settlement juveniles of Macomona liliana (Bivalvia: Tellinacea) , 1993 .
[92] Underwood,et al. Observations in ecology: you can't make progress on processes without understanding the patterns. , 2000, Journal of experimental marine biology and ecology.
[93] Vonda J. Cummings,et al. ASSESSING ENVIRONMENTAL IMPACTS: EFFECTS OF SPATIAL AND TEMPORAL VARIABILITY AT LIKELY IMPACT SCALES , 2001 .
[94] Paul A. Keddy,et al. Working with Heterogeneity: An Operator’s Guide to Environmental Gradients , 1991 .
[95] Simon F. Thrush,et al. Benthic faunal responses to variations in patch density and patch size of a suspension-feeding bivalve , 1997 .
[96] Lisandro Benedetti Cecchi,et al. The importance of the variance around the mean effect size of ecological processes: reply , 2005 .
[97] P. Legendre. Spatial Autocorrelation: Trouble or New Paradigm? , 1993 .
[98] James P. Barry,et al. Physical Heterogeneity and the Organization of Marine Communities , 1991 .
[99] Jianguo Wu,et al. Multiscale Analysis of Landscape Heterogeneity: Scale Variance and Pattern Metrics , 2000, Ann. GIS.
[100] L. R. Taylor,et al. Aggregation, Variance and the Mean , 1961, Nature.
[101] David C. Schneider,et al. Quantitative Ecology: Spatial and Temporal Scaling , 1994 .
[102] S. Levin. The problem of pattern and scale in ecology , 1992 .
[103] Marti J. Anderson,et al. Partitioning the variation among spatial, temporal and environmental components in a multivariate data set , 1998 .
[104] Erik Bonsdorff,et al. Rapid zoobenthic community responses to accumulations of drifting algae , 1996 .
[105] M. Tegner,et al. SLIDING BASELINES, GHOSTS, AND REDUCED EXPECTATIONS IN KELP FOREST COMMUNITIES , 1998 .
[106] A. King. Translating models across scales in the landscape , 1991 .
[107] Meike J. Wittmann,et al. Mathematical Ecology , 2006 .
[108] D. DeAngelis,et al. Equilibrium and Nonequilibrium Concepts in Ecological Models , 1987 .
[109] Craig W. Osenberg,et al. META‐ANALYSIS OF MARINE NUTRIENT‐ENRICHMENT EXPERIMENTS: VARIATION IN THE MAGNITUDE OF NUTRIENT LIMITATION , 1999 .
[110] R. O'Neill. A Hierarchical Concept of Ecosystems. , 1986 .
[111] Thomas R Anderson,et al. Metabolic Stoichiometry and the Fate of Excess Carbon and Nutrients in Consumers , 2004, The American Naturalist.
[112] David C. Schneider,et al. The role of fluid dynamics in the ecology of marine birds , 1991 .
[113] Simon F. Thrush,et al. Assessing the short‐term stability of spatial patterns of macrobenthos in a dynamic estuarine system , 1997 .
[114] Mark W. Denny,et al. QUANTIFYING SCALE IN ECOLOGY: LESSONS FROM AWAVE-SWEPT SHORE , 2004 .
[115] Pierre Legendre,et al. Untangling Multiple Factors in Spatial Distributions: Lilies, Gophers, and Rocks , 1996 .
[116] E. Berlow,et al. The Keystone Species Concept: Variation in Interaction Strength in a Rocky Intertidal Habitat , 1994 .
[117] David C. Schneider,et al. Evaluation of a gradient sampling design for environmental impact assessment , 1997 .
[118] Erik Bonsdorff,et al. Structuring zoobenthos: the importance of predation, siphon cropping and physical disturbance , 1995 .
[119] Erik Bonsdorff,et al. Life in the fast lane: macrobenthos use temporary drifting algal habitats , 2005 .