Natural Resources
Conservation Service
Ecological site R004AB203OR
Aquic Interdune
Last updated: 5/07/2024
Accessed: 12/22/2024
General information
Provisional. A provisional ecological site description has undergone quality control and quality assurance review. It contains a working state and transition model and enough information to identify the ecological site.
MLRA notes
Major Land Resource Area (MLRA): 004A–Sitka Spruce Belt
This resource area is along the coast of the Pacific Ocean. It is characterized by a marine climate and coastal fog belt. The parent material is primarily glacial, marine, or alluvial sediment and some scattered areas of Tertiary sedimentary rock and organic deposits. Glacial deposits are dominant in the northern part of the MLRA in Washington; marine and alluvial deposits and eolian sand are dominant along the southern part of the Washington coast and extending into Oregon. The mean annual precipitation ranges from 52 to 60 inches near the beaches to more than 190 inches in the inland areas of the MLRA.
Andisols and Inceptisols are the dominant soil orders in the MLRA, but Spodosols, Entisols, and Histosols are also present. The soils are shallow to very deep and very poorly drained to somewhat excessively drained. They are on hilly marine terraces and drift plains; coastal uplands, hills, and foothills; flood plains; and coastal dunes, marshes, and estuaries.
The soil temperature regimes of MLRA 4A are moderated by the proximity to the Pacific Ocean, which eases the differences between the mean summer and winter temperatures. The seasonal differences in temperature are more pronounced in adjacent MLRAs further inland. Included in MLRA 4A are soils in cooler areas at higher elevations or on northerly aspects that have an isofrigid temperature regime.
The soil moisture regimes of MLRA 4A are typified by soils that do not have an extended dry period during normal years. Many of the soils further inland in MLRA 2 have a dry period in summer. Soils in low-lying areas and depressions of MLRA 4A are saturated in the rooting zone for extended periods due to a high water table or long or very long periods of flooding or ponding.
MLRA 4A Soil Temperature Regimes
Isomesic The mean annual soil temperature (measured at a depth of 20 inches) is 46 to 59 degrees F, and the difference between the mean winter and summer temperatures is less than 11 degrees. The seasonal soil temperatures and difference between the mean winter and summer temperatures are moderated by the proximity to the ocean and the effects of fog in summer.
Isofrigid The mean annual soil temperature (measured at a depth of 20 inches) is 32 degrees F to less than 46 degrees, and the difference between the mean winter and mean summer temperatures is less than 11 degrees. The seasonal soil temperatures and difference between the mean winter and summer temperatures are moderated by the proximity to the ocean and the effects of fog in summer. The temperatures are cooler than in surrounding lowlands because of the higher elevation and differences in slope and aspect.
MLRA 4A Soil Moisture Regimes
Udic The soil rooting zone is not dry in any part for more than 90 cumulative days in normal years. Soil moisture does not limit plant growth because of the fog in summer.
Aquic The soil is virtually free of dissolved oxygen due to saturation of the rooting zone. The soils are saturated for extended periods during the growing season and may be subject to long or very long periods of ponding and flooding.
Refer to Keys to Soil Taxonomy for complete definitions of the soil temperature and moisture regimes.
LRU notes
The Central Sitka Spruce Belt land resource unit (LRU B) of MLRA 4A is along the west coast of Washington and Oregon. The LRU extends from the Chehalis River in Washington to South Slough in Oregon, and it is bounded on the west by the Pacific Ocean. This area consists of sand dunes, flood plains, and marine terraces that extend a few miles east and are parallel to the Pacific Ocean, and it transitions to steeper and higher elevation ridges and mountainsides of the western slopes of the Coast Range in Oregon. Near the shore in coastal lowland areas, the parent material is dominantly eolian (wind-deposited) sand, alluvium, and marine sediment. Residuum, colluvium, and landslide deposits derived from sedimentary and basaltic sources are on the coastal foothills and mountains, and minor additions of recent alluvium are along the river valleys. Several major rivers carved steep, narrow valleys through the coastal mountains and foothills before entering broader coastal valleys. Subduction zones along the Pacific Coast may cause significant earthquakes and tsunamis, which would disrupt the ecological processes beyond what is described in this ecological site description.
Classification relationships
National vegetation classification: G322 Vancouverian Wet Shrubland Group; G517 Vancouverian Freshwater Wet Meadow and Marsh Group
Ecological Systems of Washington State community type: North Pacific Coastal Interdunal Wetland
Plant associations of the Oregon Dunes National Recreation Area: Hooker Willow/Slough Sedge-Pacific Silverweed Shrubland Alliance
Ecological site concept
This ecological site is on the western coastline of the Pacific Northwest, from southern Washington through central Oregon. Deflation hollows, which are depressions that commonly are between dunes, typically form from wind erosion of dunes when vegetation is removed. Wind erosion continues until the deeper moist sediment that is more resistant to erosion is exposed. The depth to the moist sediment is a function of the grain size, depth to the water table, and height of the capillary fringe above the water table. Revegetation limits wind erosion, increases the stability of the dunes, and limits expansion of the deflation hollows. The hollows are characterized by acidic soils that have a high water table.
This ecological site is strongly influenced by hydrology, and ponding is the primary dynamic. The soils may be saturated at the surface throughout the year. The dominant vegetation is adapted to very wet, acidic soils; salt spray; low nutrient availability; and anaerobic conditions.
The maritime climate is characterized by cool, moist summers and cool, wet winters. The mean annual precipitation is 60 to 110 inches. Coastal fog provides supplemental moisture in summer. Snowfall is rare, and it is not persistent when it occurs. The mean annual air temperature is 48 to 52 degrees F.
The duration and frequency of ponding directly influence the plant community. The vegetation in this ecological site is well adapted to soils that contain abundant moisture and are ponded and acidic. The most common species include Hooker willow (Salix hookeriana), Sitka willow (Salix sitchensis), California wax myrtle (Morella californica), salt rush (Juncus lesueurii), Sierra rush (Juncus nevadensis), slough sedge (Carex obnupta), and Pacific silverweed (Argentina egedii). Trees such as Sitka spruce (Picea sitchensis) and shore pine (Pinus contorta var. contorta) are on mounds or at the edges of the site.
The most common disturbance is alteration of the watershed and hydrologic system. The water table and channel flow may be altered by dams, dikes, and levees. Beaver (Castor canadensis) activity may be a significant driver in small-scale disturbances and hydrologic morphology. Other disturbances may include strong windstorms, wildfires, and intense storm surges that alter the stability of the dunes.
Table 1. Dominant plant species
Tree |
Not specified |
---|---|
Shrub |
(1) Salix hookeriana |
Herbaceous |
(1) Argentina egedii |
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