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United States Department of Agriculture

Agricultural Research Service

Research Project: SOIL CONSERVATION SYSTEMS FOR SUSTAINABILITY OF PACIFIC NORTHWEST AGRICULTURE

Location: Land Management and Water Conservation Research

Title: Constructing a field-scale dynamic landscape model of soil hydrology using data from a distributed wireless sensor network

Authors
item Brown, David - WSU
item Campbell, Colin - DECOGON DEVICES
item Cobos, Douglas - DECOGON DEVICES
item Campbell, Gaylon - DECOGON DEVICES
item Uberuaga, David
item Huggins, David
item Smith, Jeffrey
item Wetterau, Shawn - WSU
item Gill, Richard - WSU

Submitted to: Soil Science Society of America Annual Meeting
Publication Type: Abstract Only
Publication Acceptance Date: December 25, 2007
Publication Date: N/A

Technical Abstract: Soil scientists interested in landscape processes are faced with a trade-off when it comes to data collection: spatial vs. temporal resolution. We can infrequently measure static soil properties at many locations and interpolate spatially using external variables (e.g. terrain) or geostatistics. Or we can frequently monitor dynamic soil properties at relatively few locations. The goal of the collaborative project we present here is to think about how best to combine high spatial and high temporal resolution data to construction high spatio-temporal resolution soil process models. Toward this end, at the 90 acre Cook Agronomy Farm in Eastern Washington, we have installed 60 EC-TE sensors that measure volumetric water content, electrical conductivity and temperature. Using landscape analysis, 12 representative sites were selected using a stratified random procedure and sensors were installed at 1, 2, 3, 4 and 5 ft depths. Radio frequency wireless transmitters link sensors to a central data station where it is made available to anywhere in the world via a cell phone link. For spatial modeling, we have analyzed soil cores at approximately 180 locations, with 5-m resolution terrain, electrical conductivity (wet and dry season), and yield. For this talk we will present an overview of this work and initial scaling approaches.

Last Modified: 9/22/2014
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