IMPORTANCE OF FLOODPLAIN CONNECTIVITY TO FISH POPULATIONS IN THE APALACHICOLA RIVER, FLORIDA

Floodplain habitats provide critical spawning and rearing habitats for many large‐river fishes. The paradigm that floodplains are essential habitats is often a key reason for restoring altered rivers to natural flow regimes. However, few studies have documented spatial and temporal utilization of floodplain habitats by adult fish of sport or commercial management interest or assessed obligatory access to floodplain habitats for species' persistence. In this study, we applied telemetry techniques to examine adult fish movements between floodplain and mainstem habitats, paired with intensive light trap sampling of larval fish in these same habitats, to assess the relationships between riverine flows and fish movement and spawning patterns in restored and unmodified floodplain distributaries of the Apalachicola River, Florida. Our intent is to inform resource managers on the relationships between the timing, magnitude and duration of flow events and fish spawning as part of river management actions. Our results demonstrate spawning by all study species in floodplain and mainstem river habitat types, apparent migratory movements of some species between these habitats, and distinct spawning events for each study species on the basis of fish movement patterns and light trap catches. Additionally, Micropterus spp., Lepomis spp. and, to a lesser degree, Minytrema melanops used floodplain channel habitat that was experimentally reconnected to the mainstem within a few weeks of completing the restoration. This result is of interest to managers assessing restoration activities to reconnect these habitats as part of riverine restoration programmes globally. Copyright © 2012 John Wiley & Sons, Ltd.

[1]  C. H. Wharton The Ecology of Bottomland Hardwood Swamps of the Southeast: A Community Profile , 2013 .

[2]  W. E. Pine,et al.  Documentation of the temporal and spatial patterns of pimelodidae catfish spawning and larvae dispersion in the madre de Dios River (Peru): Insights for conservation in the Andean‐Amazon headwaters , 2011 .

[3]  M. Christman,et al.  Landscape‐based geostatistics: a case study of the distribution of blue crab in Chesapeake Bay , 2006 .

[4]  D. Etnier Fishes of Alabama , 2006, Copeia.

[5]  D. MacKenzie Occupancy Estimation and Modeling: Inferring Patterns and Dynamics of Species Occurrence , 2005 .

[6]  L. Miranda Fish Assemblages in Oxbow Lakes Relative to Connectivity with the Mississippi River , 2005 .

[7]  H. Boschung Fishes of Alabama , 2004 .

[8]  L. Miranda,et al.  Determinism in Fish Assemblages of Floodplain Lakes of the Vastly Disturbed Mississippi Alluvial Valley , 2004 .

[9]  Jason C. Vokoun,et al.  Kernel Density Estimates of Linear Home Ranges for Stream Fishes: Advantages and Data Requirements , 2003 .

[10]  M. Morrison,et al.  Flows for Floodplain Forests: A Successful Riparian Restoration , 2003 .

[11]  H. Bart Inland Fishes of Mississippi , 2003, Copeia.

[12]  P. Scheerer Implications of Floodplain Isolation and Connectivity on the Conservation of an Endangered Minnow, Oregon Chub, in the Willamette River, Oregon , 2002 .

[13]  D. Montgomery,et al.  Forest Development, Wood Jams, and Restoration of Floodplain Rivers in the Puget Lowland, Washington , 2002 .

[14]  R. E. Grift,et al.  Restoration strategies for river floodplains along large lowland rivers in Europe , 2002 .

[15]  R. E. Grift,et al.  Restoration of the river-floodplain interaction: benefits for the fish community in the River Rhine , 2001 .

[16]  T. Sommer,et al.  Floodplain rearing of juvenile chinook salmon: evidence of enhanced growth and survival , 2001 .

[17]  John M. Gunn,et al.  Effects of forestry roads on reproductive habitat and exploitation of lake trout (Salvelinus namaycush) in three experimental lakes , 2000 .

[18]  K. Irons,et al.  Evaluation of the flood-pulse concept based on statistical models of growth of selected fishes of the upper Mississippi River system , 1999 .

[19]  John R. Jones,et al.  Flooding to Restore Connectivity of Regulated, Large-River Wetlands Natural and controlled flooding as complementary processes along the lower Missouri River , 1998 .

[20]  J. W. Grubbs,et al.  Aquatic habitats in relation to river flow in the Apalachicola River floodplain, Florida , 1998 .

[21]  R. Sparks,et al.  THE NATURAL FLOW REGIME. A PARADIGM FOR RIVER CONSERVATION AND RESTORATION , 1997 .

[22]  Dirk Zeller,et al.  Home range and activity patterns of the coral trout Plectropomus leopardus (Serranidae) , 1997 .

[23]  Klement Tockner,et al.  Ecological Aspects of the Restoration Strategy for a River-Floodplain System on the Danube River in Austria , 1997 .

[24]  R. Powell,et al.  An Evaluation of the Accuracy of Kernel Density Estimators for Home Range Analysis , 1996 .

[25]  B. Burr,et al.  Fishes of Alabama and the Mobile Basin , 1996 .

[26]  Thomas Hein,et al.  HYDROLOGICAL CONNECTIVITY AND FLOOD PULSES AS THE CENTRAL ASPECTS FOR THE INTEGRITY OF A RIVER-FLOODPLAIN SYSTEM , 1995 .

[27]  Charles F. Rabeni,et al.  Patterns of Movement and Habitat Use by Northern Hog Suckers in an Ozark Stream , 1995 .

[28]  R. Welcomme Relationships between fisheries and the integrity of river systems , 1995 .

[29]  L. Toth,et al.  Conceptual Evaluation of Factors Potentially Affecting Restoration of Habitat Structure within the Channelized Kissimmee River Ecosystem , 1995 .

[30]  Clifford N. Dahm,et al.  An Ecosystem View of the Restoration of the Kissimmee River , 1995 .

[31]  C. K. Minns Allometry of home range size in lake and river fishes , 1995 .

[32]  I. Zsuffa,et al.  Floodplan restoration by means of water regime control. , 1995 .

[33]  M. Zalewski,et al.  The dependence of fish community structure and dynamics on floodplain and riparian ecotone zone in Parana River, Brazil , 1995, Hydrobiologia.

[34]  Richard E. Sparks,et al.  Need for Ecosystem Management of Large Rivers and Their Floodplains These phenomenally productive ecosystems produce fish and wildlife and preserve species , 1995 .

[35]  W. Dietrich,et al.  Downstream Ecological Effects of Dams: A geomorphic perspective , 1995 .

[36]  Peter B. Bayley,et al.  Understanding Large River-Floodplain EcosystemsSignificant economic advantages and increased biodiversity and stability would result from restoration of impaired systems , 1995 .

[37]  C. Nilsson,et al.  Fragmentation and Flow Regulation of River Systems in the Northern Third of the World , 1994, Science.

[38]  L. A. Kissick Comparison of Traps Lighted by Photochemicals or Electric Bulbs for Sampling Warmwater Populations of Young Fish , 1993 .

[39]  M. Walbridge Functions and Values of Forested Wetlands in the Southern United States , 1993, Journal of Forestry.

[40]  J. F. Hosner Meeting Demands for Breadth and Depth: A Two-Tiered Approach , 1993, Journal of Forestry.

[41]  P. Bayley The flood pulse advantage and the restoration of river‐floodplain systems , 1991 .

[42]  G. Copp The habitat diversity and fish reproductive function of floodplain ecosystems , 1989, Environmental Biology of Fishes.

[43]  B. Worton Kernel methods for estimating the utilization distribution in home-range studies , 1989 .

[44]  T. Kwak Lateral movement and use of floodplain habitat by fishes in the Kankakee River, Illinois , 1988 .

[45]  William A. Sheaffer,et al.  Backwater areas as nursery habitats for fishes in pool 13 of the Upper Mississippi River , 1986, Hydrobiologia.

[46]  H. Moser,et al.  Ontogeny and Systematics of Fishes , 1985 .

[47]  W. Courtenay,et al.  A New Larval Fish Light Trap: The Quatrefoil Trap , 1984 .

[48]  D. Gunderson Floodplain Use Related to Stream Morphology and Fish Populations , 1968 .

[49]  K. Carlander Handbook of freshwater fishery biology , 1951 .

[50]  W. H. Burt Territoriality and Home Range Concepts as Applied to Mammals , 1943 .

[51]  S. Walsh,et al.  Composition of Age-0 Fish Assemblages in the Apalachicola River, River Styx, and Battle Bend, Florida , 2009 .

[52]  P. Bayley,et al.  Understanding Large River : Floodplain Ecosystems , 2007 .

[53]  K. Vincent,et al.  Water-level decline in the Apalachicola River, Florida, from 1954 to 2004, and effects on floodplain habitats , 2006 .

[54]  M. Zalewski,et al.  The importance of floodplains for the dynamics of fish communities of the upper river Paraná , 2001 .

[55]  William M. Brenneman The Inland Fishes of Mississippi , 2001 .

[56]  Klement Tockner,et al.  Conservation by restoration: the management concept for a river-floodplain system on the Danube River in Austria , 1998 .

[57]  W. Junk The flood pulse concept in river-floodplain systems , 1989 .

[58]  E. H. Ahlstrom,et al.  Ontogeny and systematics of fishes , 1984 .

[59]  W. V. Winkle COMPARISON OF SEVERAL PROBABILISTIC HOME-RANGE MODELS' , 1975 .

[60]  W. Langbein,et al.  Large rivers of the United States , 1974 .

[61]  R. L. Welcomme,et al.  Fisheries ecology of floodplain rivers , 1974 .

[62]  V. A. Epanechnikov Non-Parametric Estimation of a Multivariate Probability Density , 1969 .