Open AccessSoil Sensor Technology: Life within a Pixel
Author(s) -
Michael F. Allen,
Rodrigo Vargas,
Eric Graham,
William A. Swenson,
Michael Hamilton,
Michael Taggart,
Thomas C. Harmon,
Alexander Ratko,
Phil Rundel,
Brian Fulkerson,
Deborah Estrin
Publication year - 2007
Publication title -
bioscience
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.761
H-Index - 209
eISSN - 1525-3244
pISSN - 0006-3568
DOI - 10.1641/b571008
Subject(s) - environmental science , ecosystem , agriculture , remote sensing , field (mathematics) , extrapolation , sampling (signal processing) , environmental resource management , ecology , process (computing) , soil science , computer science , biology , geography , mathematics , mathematical analysis , filter (signal processing) , pure mathematics , computer vision , operating system
Soil organisms undertake every major ecosystem process, from primary production to decomposition to carbon sequestration, and those processes they catalyze have a bearing on the management of issues from agriculture to global climate change. Nonetheless, until recently, research to measure the dynamics of microscopic organisms living belowground has largely been limited to infrequent field sampling and laboratory extrapolation. Now, however, new sensor technologies can measure and monitor soil organisms and processes at rapid and continuous temporal scales. In this article, we describe these technologies and how they can be arrayed for an integrated view of soil dynamics.
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