Scale-up of ecological experiments: Density variation in the mobile bivalve Macomona liliana

Abstract At present the problem of scaling up from controlled experiments (necessarily at a small spatial scale) to questions of regional or global importance is perhaps the most pressing issue in ecology. Most of the proposed techniques recommend iterative cycling between theory and experiment. We present a graphical technique that facilitates this cycling by allowing the scope of experiments, surveys, and natural history observations to be compared to the scope of models and theory. We apply the scope analysis to the problem of understanding the population dynamics of a bivalve exposed to environmental stress at the scale of a harbour. Previous lab and field experiments were found not to be 1:1 scale models of harbour-wide processes. Scope analysis allowed small scale experiments to be linked to larger scale surveys and to a spatially explicit model of population dynamics.

[1]  G. Likens An Experimental Approach for the Study of Ecosystems: The Fifth Tansley Lecture , 1985 .

[2]  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 .

[3]  D. Schneider,et al.  Analysis of scale-dependent processes with dimensionless ratios , 1994 .

[4]  N. Stenseth,et al.  Ecological mechanisms and landscape ecology , 1993 .

[5]  David C. Schneider,et al.  Spatial structure of bivalves in a sandflat:: Scale and generating processes , 1997 .

[6]  L. L. Eberhardt,et al.  Designing Environmental Field Studies , 1991 .

[7]  A. E. Gill Atmosphere-Ocean Dynamics , 1982 .

[8]  Simon F. Thrush,et al.  Adult/juvenile interactions of infaunal bivalves: contrasting outcomes in different habitats , 1996 .

[9]  R. Pridmore,et al.  Bedload and water-column transport and colonization processes by post-settlement benthic macrofauna: Does infaunal density matter? , 1997 .

[10]  Carol A. Wessman,et al.  Spatial Scales and Global Change: Bridging the Gap from Plots to GCM Grid Cells , 1992 .

[11]  E. Ólafsson,et al.  Does recruitment limitation structure populations and communities of macro-in-vertebrates in marine soft sediments?: the relative significance of pre and post-settlement processes , 1994 .

[12]  Simon F. Thrush,et al.  Emergence and floating behaviours of post‐settlement juveniles of Macomona liliana (Bivalvia: Tellinacea) , 1993 .

[13]  D'arcy W. Thompson On Growth and Form , 1945 .

[14]  Allan Stewart-Oaten,et al.  ENVIRONMENTAL IMPACT ASSESSMENT: "PSEUDOREPLICATION" IN TIME?' , 1986 .

[15]  D. Schindler Detecting Ecosystem Responses to Anthropogenic Stress , 1987 .

[16]  R. Pridmore,et al.  Adult infauna as facilitators of colonization on intertidal sandflats , 1992 .

[17]  Pierre Dutilleul,et al.  Spatial Heterogeneity and the Design of Ecological Field Experiments , 1993 .

[18]  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 .

[19]  A. Jassby,et al.  Detecting Changes in Ecological Time Series , 1990 .

[20]  Dc Schneider,et al.  Patchiness of epibenthic megafauna on the outer Grand Banks of Newfoundland , 1987 .

[21]  DAVID SCHNEIDER,et al.  Equalisation of prey numbers by migratory shorebirds , 1978, Nature.

[22]  J. O'Brien,et al.  On advection in phytoplankton models. , 1973, Journal of theoretical biology.

[23]  J. R. Radbill,et al.  Similitude and Approximation Theory , 1986 .

[24]  W. Calder Size, Function, and Life History , 1988 .

[25]  C. N. Slobodchikoff,et al.  A New Ecology: Novel Approaches to Interactive Systems , 1984 .

[26]  S. Carpenter,et al.  Ecosystem experiments : Frontiers in biology : ecology , 1995 .

[27]  A. Townsend Peterson,et al.  The Fallacy of Averages , 1988, The American Naturalist.

[28]  D. Rhoads,et al.  Animal-sediment relations in Cape Cod Bay, Massachusetts I. A transect study , 1971 .

[29]  R. Pridmore,et al.  Post‐settlement movement by intertidal benthic macroinvertebrates: Do common New Zealand species drift in the water column? , 1995 .

[30]  Edward S. Taylor,et al.  Dimensional analysis for engineers , 1974 .

[31]  David C. Schneider,et al.  Multiscale experimental analysis of aggregative responses of mobile predators to infaunal prey , 1997 .

[32]  R. Pridmore,et al.  Effect of the spionid polychaeteBoccardia syrtis on the distribution and survival of juvenileMacomona liliana (Bivalvia: Tellinacea) , 1996 .

[33]  G Sugihara,et al.  Applications of fractals in ecology. , 1990, Trends in ecology & evolution.

[34]  S. Woodin Refuges, Disturbance, and Community Structure: A Marine Soft‐Bottom Example , 1978 .

[35]  John H. Steele,et al.  Some Comments on Plankton Patches , 1978 .

[36]  Robert V. O'Neill,et al.  Aggregation error in ecological models , 1979 .

[37]  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.

[38]  T. J. Smith,et al.  Effect of the organochlorine pesticide technical chlordane on the population structure of suspension and deposit feeding bivalves , 1991 .

[39]  S. Schneider,et al.  Ecology and Climate: Research Strategies and Implications , 1995, Science.

[40]  J. Wiens Spatial Scaling in Ecology , 1989 .

[41]  R. Pridmore,et al.  Dispersal dynamics in a wind-driven benthic system , 1995 .

[42]  Stephen R. Carpenter,et al.  Large‐Scale Perturbations: Opportunities for Innovation , 1990 .

[43]  Kenneth H. Reckhow,et al.  Bayesian inference in non-replicated ecological studies , 1990 .

[44]  Shaun Lovejoy,et al.  Scale Invariance, Symmetries, Fractals, and Stochastic Simulations of Atmospheric Phenomena , 1986 .

[45]  R. Green,et al.  Sampling Design and Statistical Methods for Environmental Biologists , 1979 .

[46]  J. Wilson,et al.  Addendum: Non-Adaptation in Agrostis capillaris L. (Poaceae) , 1989 .

[47]  Bruce T. Milne,et al.  Spatial Aggregation and Neutral Models in Fractal Landscapes , 1992, The American Naturalist.

[48]  K. Mann,et al.  Dynamics of Marine Ecosystems , 1991 .

[49]  David C. Schneider,et al.  Quantitative Ecology: Spatial and Temporal Scaling , 1994 .

[50]  Nelson G. Hairston,et al.  Ecological Experiments: Purpose, Design and Execution , 1989 .

[51]  R. Pridmore,et al.  Patterns in the spatial arrangements of polychaetes and bivalves in intertidal sandflats , 1989 .

[52]  Simon F. Thrush,et al.  The importance of predators on a sandflat: interplay between seasonal changes in prey densities and predator effects , 1994 .

[53]  R. Pridmore,et al.  Impact of ray feeding disturbances on sandflat macrobenthos: do communities dominated by polychaetes or shellfish respond differently? , 1991 .

[54]  Trevor Platt,et al.  Primary production of the ocean water column as a function of surface light intensity: algorithms for remote sensing , 1986 .

[55]  G. Thorson Some factors influencing the recruitment and establishment of marine benthic communities , 1966 .