Ecological Linkages Between Headwaters and Downstream Ecosystems: Transport of Organic Matter, Invertebrates, and Wood Down Headwater Channels 1

Headwater streams make up a large proportion of the total length and watershed area of fluvial networks, and are partially characterized by the large volume of organic matter (large wood, detritus, and dis- solved organic matter) and invertebrate inputs from the riparian forest, relative to stream size. Much of those inputs are exported to downstream reaches through time where they potentially subsidize river communities. The relative rates, timing, and conversion processes that carry inputs from small streams to downstream rea- ches are reasonably well quantified. For example, larger particles are converted to smaller particles, which are more easily exported. Also, dissolved organic matter and surface biofilms are converted to larger particles which can be more easily intercepted by consumers. However, the quality of these materials as it affects biological activity downstream is not well known, nor is the extent to which timing permits biological use of those parti- cles. These ecological unknowns need to be resolved. Further, land uses may disrupt and diminish material transport to downstream reaches by removing sources (e.g., forest harvest), by affecting transport and decompo- sition processes (e.g., flow regulation, irrigation, changes in biotic communities), and by altering mechanisms of storage within headwaters (e.g., channelization). We present conceptual models of energy and nutrient fluxes that outline small stream processes and pathways important to downstream communities, and we identify infor- mational gaps that, if filled, could significantly advance the understanding of linkages between headwater streams and larger rivers. The models, based on empirical evidence and best professional judgment, suggest that navigable waters are significantly influenced by headwater streams through hydrological and ecological connec- tivities, and land use can dramatically influence these natural connectivities, impacting downstream riverine ecosystems.

[1]  C. Mason,et al.  The input of terrestrial invertebrates from tree canopies to a stream , 1982 .

[2]  R. Petersen In situ particle generation in a southern Swedish stream1 , 1986 .

[3]  R. Naiman,et al.  Characterization of Particulate Organic Matter Transported by Some Cascade Mountain Streams , 1979 .

[4]  J. Richardson,et al.  Effects of food and cover on the growth, survival, and movement of cutthroat trout (Oncorhynchus clarki) in coastal streams , 2002 .

[5]  R. Naiman The Annual Pattern and Spatial Distribution of Aquatic Oxygen Metabolism in Boreal Forest Watersheds , 1983 .

[6]  M. McArthur,et al.  Microbial utilization of dissolved organic carbon leached from riparian litterfall , 2002 .

[7]  J. Richardson,et al.  Flow-substrate interactions create and mediate leaf litter resource patches in streams , 2006 .

[8]  E. F. Benfield Comparison of Litterfall Input to Streams , 1997, Journal of the North American Benthological Society.

[9]  Robert J. Naiman,et al.  Dynamic patch mosaics and channel movement in an unconfined river valley of the Olympic Mountains , 2006 .

[10]  J. Richardson,et al.  ORGANIC MATTER DYNAMICS IN SMALL STREAMS OF THE PACIFIC NORTHWEST 1 , 2005 .

[11]  J. Sedell,et al.  From the Forest to the Sea: The Ecology of Wood in Streams, Rivers, Estuaries and Oceans , 1994 .

[12]  Stan V. Gregory,et al.  The Ecology and Management of Wood in World Rivers , 2003 .

[13]  Robert E. Bilby,et al.  Characteristics and Function of Large Woody Debris in Streams Draining Old-Growth, Clear-Cut, and Second-Growth Forests in Southwestern Washington , 1991 .

[14]  K. Fausch,et al.  Tangled webs: reciprocal flows of invertebrate prey link streams and riparian zones , 2005 .

[15]  D. Montgomery,et al.  LARGE WOODY DEBRIS JAMS, CHANNEL HYDRAULICS AND HABITAT FORMATION IN LARGE RIVERS , 1996 .

[16]  R. Deal,et al.  The role of red alder in riparian forest structure along headwater streams in southeastern Alaska , 2004 .

[17]  T. Cuffney,et al.  Long-Term Dynamics of Coarse Particulate Organic Matter in Three Appalachian Mountain Streams , 1995, Journal of the North American Benthological Society.

[18]  G. Lamberti,et al.  Hydraulic and Particulate Matter Retention in a 3rd-Order Indiana Stream , 1992, Journal of the North American Benthological Society.

[19]  R. Wotton,et al.  Do tributary streams contribute significantly to the transport of faecal pellets in large rivers? , 2002, Aquatic Sciences.

[20]  R. Naiman,et al.  Riparia: Ecology, Conservation, and Management of Streamside Communities , 2005 .

[21]  P. Bisson,et al.  Function and Distribution of Large Woody Debris , 1998 .

[22]  J. Negishi,et al.  Responses of organic matter and macroinvertebrates to placements of boulder clusters in a small stream of southwestern British Columbia, Canada , 2003 .

[23]  D. Strayer,et al.  The Contribution of Headwater Streams to Biodiversity in River Networks 1 , 2007 .

[24]  S. Gerking Feeding Ecology of Fish , 1994 .

[25]  M. Klug,et al.  Shredders and Riparian Vegetation Leaf litter that falls into streams influences communities of stream invertebrates , 2007 .

[26]  Masashi Murakami,et al.  FISH INVASION RESTRUCTURES STREAM AND FOREST FOOD WEBS BY INTERRUPTING RECIPROCAL PREY SUBSIDIES , 2004 .

[27]  R. Gresswell,et al.  Large wood recruitment and redistribution in headwater streams in the southern Oregon Coast Range, U.S.A. , 2003 .

[28]  R. Naiman Characteristics of Sediment and Organic Carbon Export from Pristine Boreal Forest Watersheds , 1982 .

[29]  H. B. N. Hynes,et al.  The stream and its valley , 1975 .

[30]  G. Likens,et al.  Pattern and process in a forested ecosystem. , 1979 .

[31]  M. Harmon,et al.  Ecology of Coarse Woody Debris in Temperate Ecosystems , 1986 .

[32]  D. Hibbs,et al.  RIPARIAN COMMUNITIES ASSOCIATED WITH PACIFIC NORTHWEST HEADWATER STREAMS: ASSEMBLAGES, PROCESSES, AND UNIQUENESS 1 , 2005 .

[33]  R. Heintz,et al.  Marine Subsidies in Freshwater: Effects of Salmon Carcasses on Lipid Class and Fatty Acid Composition of Juvenile Coho Salmon , 2004 .

[34]  C. Dahm,et al.  ORGANIC CARBON SUPPLY AND METABOLISM IN A SHALLOW GROUNDWATER ECOSYSTEM , 2000 .

[35]  J. Meyer,et al.  EFFECTS OF RESOURCE LIMITATION ON A DETRITAL‐BASED ECOSYSTEM , 1999 .

[36]  M. Wipfli,et al.  Density of red alder (Alnus rubra) in headwaters influences invertebrate and detritus subsidies to downstream fish habitats in Alaska , 2004, Hydrobiologia.

[37]  M. Murakami,et al.  Reciprocal subsidies: dynamic interdependence between terrestrial and aquatic food webs. , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[38]  R. Wotton,et al.  Fecal pellets from a dense aggregation of suspension‐feeders in a stream: An example of ecosystem engineering , 1998 .

[39]  Robert E. Bilby,et al.  Changes in Characteristics and Function of Woody Debris with Increasing Size of Streams in Western Washington , 1989 .

[40]  J. Allan,et al.  Influence of streamside vegetation on inputs of terrestrial invertebrates to salmonid food webs , 2003 .

[41]  S. Larned,et al.  Nitrogen Export from Forested Watersheds in the Oregon Coast Range: The Role of N2-fixing Red Alder , 2003, Ecosystems.

[42]  T. Lisle Stabilization of a gravel channel by large streamside obstructions and bedrock bends , 1986 .

[43]  J. Webster,et al.  IV. Litter Breakdown and Streams Long-Term Patterns in Leaf Breakdown in Streams in Response to Watershed Logging , 2001 .

[44]  Stephen B. Heard,et al.  Mechanical abrasion and organic matter processing in an Iowa stream , 1999, Hydrobiologia.

[45]  H. Valett,et al.  STREAM NUTRIENT UPTAKE, FOREST SUCCESSION, AND BIOGEOCHEMICAL THEORY , 2002 .

[46]  J. Agee,et al.  Dynamic Landscape Systems , 2005 .

[47]  The Use of Plastic Strips to Measure Leaf Retention by Riparian Vegetation in a Coastal Oregon Stream , 1988 .

[48]  R. Naiman,et al.  The Ecology of Interfaces: Riparian Zones , 1997 .

[49]  J. Richardson,et al.  Fluvial and epilithic organic matter dynamics in headwater streams of southwestern British Columbia, Canada , 2000 .

[50]  R. Naiman,et al.  Principles for linking fish habitat to fisheries management and conservation , 2005 .

[51]  R. Naiman The influence of stream size on the food quality of seston , 1983 .

[52]  J. Richardson,et al.  Litter breakdown and invertebrate association with three types of leaves in a temperate rainforest stream , 2004 .

[53]  C. Greene,et al.  Tributary streams create spatial discontinuities in habitat, biological productivity, and diversity in mainstem rivers , 2006 .

[54]  Hirokazu Urabe,et al.  Selective foraging on terrestrial invertebrates by rainbow trout in a forested headwater stream in northern Japan , 1999, Ecological Research.

[55]  Judith L. Li,et al.  Changing patterns in coastal cutthroat trout (Oncorhynchus clarki clarki) diet and prey in a gradient of deciduous canopies , 2005 .

[56]  P. Bisson,et al.  Organic Matter and Trophic Dynamics , 1998 .

[57]  D. J. D'Angelo,et al.  What happens to allochthonous material that falls into streams? A synthesis of new and published information from Coweeta , 1999 .

[58]  J. Meyer,et al.  Leaf Litter as a Source of Dissolved Organic Carbon in Streams , 1998, Ecosystems.

[59]  Keller Suberkropp,et al.  Microorganisms and Organic Matter Decomposition , 1998 .

[60]  S. Adams Ecological Role of Lipids in the Health and Success of Fish Populations , 1999 .

[61]  Edward V. McGarry,et al.  Sources of large wood in the main stem of a fourth-order watershed in coastal Oregon , 2003 .

[62]  R. Naiman,et al.  Large woody debris, physical process, and riparian forest development in montane river networks of the Pacific Northwest , 1995 .

[63]  Jackson R. Webster,et al.  VASCULAR PLANT BREAKDOWN IN FRESHWATER ECOSYSTEMS , 1986 .

[64]  J. Hudson,et al.  Influence of salmon carcasses on stream productivity: response of biofilm and benthic macroinvertebrates in southeastern Alaska, U.S.A. , 1998 .

[65]  R. Wotton,et al.  Feces in Aquatic Ecosystems , 2001 .

[66]  Robert L. Edmonds,et al.  Analysis of coniferous forest ecosystems in the Western United States , 1982 .

[67]  J. Richardson Coarse Particulate Detritus Dynamics in Small, Montane Streams Southwestern British Columbia , 1992 .

[68]  D. Gregovich,et al.  Export of invertebrates and detritus from fishless headwater streams in southeastern Alaska: implications for downstream salmonid production , 2002 .

[69]  E. M. Krokhin,et al.  Food Relations and Behavior of Salmonid Fishes , 1975 .

[70]  F. Triska,et al.  Coniferous forest streams , 1982 .

[71]  Y. Kawaguchi,et al.  Contribution of terrestrial invertebrates to the annual resource budget for salmonids in forest and grassland reaches of a headwater stream , 2001 .

[72]  R. Sidle,et al.  Understanding Processes and Downstream Linkages of Headwater Systems , 2002 .

[73]  M. Wipfli,et al.  Does red alder (Alnus rubra) in upland riparian forests elevate macroinvertebrate and detritus export from headwater streams to downstream habitats in southeastern Alaska , 2002 .

[74]  H. B. N. Hynes,et al.  The Ecology of Running Waters , 1971 .

[75]  Mark S. Wipfli,et al.  Marine Subsidies in Freshwater Ecosystems: Salmon Carcasses Increase the Growth Rates of Stream-Resident Salmonids , 2003 .

[76]  Mike Barbetti,et al.  River stabilisation due to changing climate and vegetation during the late Quaternary in western Tasmania, Australia , 1995 .

[77]  R. Beschta,et al.  Characteristics of Coarse Woody Debris for Several Coastal Streams of Southeast Alaska, USA , 1990 .

[78]  Robert J. Naiman,et al.  Longitudinal patterns of ecosystem processes and community structure in a subarctic river continuum , 1987 .

[79]  R. Naiman,et al.  Dead Wood Dynamics in Stream Ecosystems 1 , 2002 .

[80]  F. Swanson,et al.  Land-water interactions: the riparian zone , 1982 .

[81]  J. Richardson Seasonal Food Limitation of Detritivores in a Montane Stream: An Experimental Test , 1991 .

[82]  M. Wipfli Terrestrial invertebrates as salmonid prey and nitrogen sources in streams: contrasting old-growth and young-growth riparian forests in southeastern Alaska, U.S.A. , 1997 .

[83]  J. Nielsen Microhabitat‐Specific Foraging Behavior, Diet, and Growth of Juvenile Coho Salmon , 1992 .

[84]  Michael Church,et al.  GEOMORPHOLOGY OF STEEPLAND HEADWATERS: THE TRANSITION FROM HILLSLOPES TO CHANNELS 1 , 2005 .

[85]  Michael A. Kilgore,et al.  Riparian management practices: A summary of state guidelines , 2001 .

[86]  J. Richardson,et al.  Progress towards understanding the structure, function, and ecological significance of small stream channels and their riparian zones , 2003 .

[87]  Chris Maser,et al.  From the Forest to the Sea: A Story of Fallen Trees , 1990 .

[88]  Simon A. Levin,et al.  Lost linkages and lotic ecology: rediscovering small streams. , 2001 .

[89]  J. Bolte,et al.  IMPLICATIONS OF RIPARIAN MANAGEMENT STRATEGIES ON WOOD IN STREAMS OF THE PACIFIC NORTHWEST , 2003 .

[90]  J. Sedell,et al.  Detritus Processing by Macroinvertebrates in Stream Ecosystems , 1979 .

[91]  J. Richardson Effects of seston quality on the growth of a lake-outlet filter feeder , 1984 .