1 / 59

Wetlands - An Introduction

Wetlands - An Introduction. By Wynn W. Cudmore, Ph.D. N orthwest C enter for S ustainable R esources DUE # 0757239. This project supported in part by the National Science Foundation. Opinions expressed are those of the authors and not necessarily those of the Foundation.

neron
Download Presentation

Wetlands - An Introduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Wetlands - An Introduction By Wynn W. Cudmore, Ph.D. Northwest Center for Sustainable Resources DUE # 0757239 This project supported in part by the National Science Foundation. Opinions expressed are those of the authors and not necessarily those of the Foundation.

  2. Wetlands – An Introduction Salmon River Estuary, Oregon

  3. Hylebos Marsh – Tacoma, Washington:the complexity of wetland management

  4. A change in the perception of wetlands

  5. Activities that may be regulated to protect wetlands Draining an agricultural wetland Installation of a water control structure Dredging in a wetland Highway construction in a wetland

  6. The “Wetlands Industry” • Interest in wetlands has driven demand for: • Wetlands scientists • Regulators • Environmental lawyers • Engineers • Wetlands consultants • Educators

  7. The Value of Wetlands High net productivity Abundant and diverse wildlife Water quality improvement Flood and storm protection Wetlands bordering the Wicomico River, a tributary of Chesapeake Bay on Maryland’s eastern shore

  8. Wetlands as ecosystems

  9. The loss and degradation of wetlands A dredging operation Installing drain tile Extensive coastal development

  10. “What is a wetland?”

  11. Wetlands occupy transitional zones between well-drained uplands and permanently flooded deepwater habitats

  12. Wetlands develop in areas where the water table is at or near the surface Water table - the upper surface of groundwater below which soil is saturated with water that fills all voids

  13. Prairie potholes in the Northern Rocky Mountains in spring (left) and summer (right) Wetlands are dynamic ecosystems Many wetland species are adapted to periodic saturation and drying

  14. Is it “wetland?” The definition of what is and what is not a wetland is of significant ecological and economic importance

  15. The evolution of formal wetland definitions

  16. The evolution of formal wetland definitions

  17. The evolution of formal wetland definitions

  18. The evolution of formal wetland definitions

  19. Not all wetlands look “wet” Vernal pool wetland in northern California

  20. Jurisdictional Wetlands A “jurisdictional wetland” is one that meets the three criteria – hydric soils, hydrology and wetlands plants – as established by the U.S. Army Corps of Engineers

  21. Wetlands are identified by field and remote investigations that examine three criteria • Wetland (Hydric) soils • Hydrology • Wetland vegetation

  22. Wetland (Hydric) Soils • Soils that are water saturated for extended periods of time during the growing season • Soil oxygen is rapidly depleted due to chemical and biological oxygen demands • Anaerobic conditions result • Lack of oxygen has a number of effects on biological and chemical processes in soil Mottling is a wetland soil characteristic

  23. Hydrology – hydrological regime Possible sources of water: • Tidal flow • Precipitation • Groundwater seeps • Periodic flooding Hydroperiod -the temporal pattern of water’s fluctuation (regular or sporadic) The hydroperiod strongly influences the type of wetland that is supported.

  24. Vegetation – Wetland Plants Hydrophytic plants are adapted to growing in hydric soils Nearly 7000 U.S. species – cattails, sedges, rushes, cordgrass, mangroves, water plantains Wetland plants have specific adaptations that allow them to outcompete upland plants in saturated soils Pitcher plant (Sarracenia alata) in Leon County, Texas

  25. Structural and physiological adaptations of wetland plants • Oxygen-transporting structures in their stems and roots Arenchyma tissues in cattail (Typha latifolia) stem

  26. Structural and physiological adaptations of wetland plants • Oxygen-transporting structures in their stems and roots – arenchyma tissues • Floating leaves and stems Water lily Water hyacinth

  27. Structural and physiological adaptations of wetland plants • Oxygen-transporting structures in their stems and roots – arenchyma tissues • Floating leaves and stems • Buttressed trunks and pneumatophores Baldcypress (Taxodium distichum)

  28. Structural and physiological adaptations of wetland plants • Oxygen-transporting structures in their stems and roots • Floating leaves and stems • Buttressed trunks and pneumatophores • Protective barriers against excessively saline surroundings or the ability to secrete excess salt • Rapid or multiple stem growth • Biochemical pathways that can be used under anaerobic conditions • Changes in growth form that maximize the amount of surface area exposed to air Adventitious roots Crack willow (Salix fragilis) White willow (Salix alba)

  29. Structural and physiological adaptations of wetland plants • Oxygen-transporting structures in their stems and roots – arenchyma tissues • Floating leaves and stems • Buttressed trunks and pneumatophores • Protective barriers against excessively saline surroundings or the ability to secrete excess salt • Rapid or multiple stem growth • Biochemical pathways that can be used under anaerobic conditions • Changes in growth form that maximize the amount of surface area exposed to air • Prolonged seed viability • Seed germination under low oxygen concentrations • Production of buoyant seeds and seedlings

  30. Hydrophytic Plants as Wetland Indicators Plants are categorized according to their probability of occurring in wetland soils: Upland - UPL Facultative upland - FACU Facultative - FAC Facultative wet - FACW Obligatory wet - OBL An area meets the “wetland plants” criterion for a “jurisdictional wetland” when more than 50% of the dominant species are FAC, FACW, or OBL

  31. Wetland Functions and Values Functions - ecological services provided by wetlands Values - estimates of the importance or worth of one or more of a wetland’s functions to society “When both the marketed and nonmarketed economic benefits of wetlands are included, the total economic value of unconverted wetlands is often greater than that of converted wetlands.” Millennium Ecosystem Assessment (2005)

  32. Wetland Functions

  33. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water August 1991 Wetlands absorb floodwaters during 1993 Mississippi River floods August 1993

  34. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms and tsunamis Beach erosion at Jupiter, Florida

  35. Banda Aceh, Indonesia prior to the 26 December 2004 tsunami

  36. Shrimp farms

  37. Banda Aceh, Indonesia after the 26 December 2004 tsunami

  38. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms and tsunamis Recharge groundwater Store surface water serving as natural reservoirs Control erosion by serving as sediment traps and by stabilizing soils 2. Water quality improvement Trap, retain and process pollutants in flooded soil - “kidneys of the landscape” Protect drinking water supplies Treat wastewater – “treatment wetlands”

  39. Constructed wetlands can be used to treat wastewater Constructed wetlands in Boulder City, Nevada

  40. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms Recharge groundwater Store surface water serving as natural reservoirs Control erosion by serving as sediment traps and by stabilizing soils 2. Water quality improvement Trap, retain and process pollutants in flooded soil - “kidneys of the landscape” Protect drinking water supplies Treat wastewater – “treatment wetlands” 3. Wildlife habitat High net productivity, but often low plant diversity

  41. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms Recharge groundwater Store surface water serving as natural reservoirs Control erosion by serving as sediment traps and by stabilizing soils 2. Water quality improvement Trap, retain and process pollutants in flooded soil - “kidneys of the landscape” Protect drinking water supplies Treat wastewater – “treatment wetlands” 3. Wildlife habitat High net productivity Habitat for threatened and endangered species

  42. Wood stork (Mycteria americana) – an endangered species Wetlands as habitat for threatened and endangered species

  43. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms Recharge groundwater Store surface water serving as natural reservoirs Control erosion by serving as sediment traps and by stabilizing soils 2. Water quality improvement Trap, retain and process pollutants in flooded soil - “kidneys of the landscape” Protect drinking water supplies Treat wastewater – “treatment wetlands” 3. Wildlife habitat High net productivity Habitat for threatened and endangered species Wetlands are especially important habitat for waterfowl, songbirds, shorebirds, wading birds, reptiles, amphibians, and many invertebrates

  44. 80% of all U.S. bird species occupy wetlands at some point in their life history

  45. Wetland Functions 1. Hydrologic processes Flood control and damage reduction by capturing, storing and slowly releasing water Coastal wetlands moderate the effects of storms Recharge groundwater Store surface water serving as natural reservoirs Control erosion by serving as sediment traps and by stabilizing soils 2. Water quality improvement Trap, retain and process pollutants in flooded soil - “kidneys of the landscape” Protect drinking water supplies Treat wastewater – “treatment wetlands” 3. Wildlife habitat High net productivity Habitat for threatened and endangered species Wetlands are especially important habitat for waterfowl, songbirds, shorebirds, wading birds, reptiles, amphibians, and many invertebrates Nurseries for marine fish and shellfish

  46. Native oysters attached to prop roots of red mangrove Sanibel Island, Florida

  47. Geoduck farm on an intertidal mudflat Puget Sound, Washington

  48. Vernal pools as wildlife habitat Northwestern salamander (Ambystoma gracile) egg masses Many amphibian species are adapted to using seasonal wetlands as breeding habitat

More Related