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@ARTICLE{Lausch:865696,
author = {Lausch, A. and Bannehr, L. and Borg, E. and Bumberger, J.
and Chabrillat, S. and Dietrich, P. and Gerighausen, H. and
Glässer, C. and Hacker, J. M. and Haase, D. and Jagdhuber,
T. and Jany, S. and Jung, A. and Karnieli, A. and Kraemer,
R. and Makki, M. and Mielke, C. and Möller, M. and
Mollenhauer, H. and Montzka, C. and Pause, M. and Rogass, C.
and Rozenstein, O. and Schima, R. and Schmullius, C. and
Schrodt, F. and Schrön, M. and Schulz, K. and Schütze, C.
and Schweitzer, C. and Selsam, P. and Skidmore, A. K. and
Spengler, D. and Thiel, C. and Truckenbrodt, S. and Vohland,
M. and Weber, U. and Werban, U. and Wollschläger, U. and
Zacharias, S. and Schaepman, M. E.},
title = {{L}inking {R}emote {S}ensing and {G}eodiversity and their
{T}raits {R}elevant to {B}iodiversity – {P}art {I}: {S}oil
{C}haracteristics},
journal = {Remote sensing},
volume = {11},
number = {20},
issn = {2072-4292},
address = {Basel},
publisher = {MDPI},
reportid = {FZJ-2019-05037},
pages = {2356},
year = {2019},
abstract = {In the face of rapid global change it is imperative to
preserve geodiversity for the overall conservation of
biodiversity. Geodiversity is important for understanding
complex biogeochemical and physical processes and is
directly and indirectly linked to biodiversity on all scales
of ecosystem organization. Despite the great importance of
geodiversity, there is a lack of suitable monitoring
methods. Compared to conventional in-situ techniques, remote
sensing (RS) techniques provide a pathway towards
cost-effective, increasingly more available, comprehensive,
and repeatable, as well as standardized monitoring of
continuous geodiversity on the local to global scale. This
paper gives an overview of the state-of-the-art approaches
for monitoring soil characteristics and soil moisture with
unmanned aerial vehicles (UAV) and air- and spaceborne
remote sensing techniques. Initially, the definitions for
geodiversity along with its five essential characteristics
are provided, with an explanation for the latter. Then, the
approaches of spectral traits (ST) and spectral trait
variations (STV) to record geodiversity using RS are
defined. LiDAR (light detection and ranging), thermal and
microwave sensors, multispectral, and hyperspectral RS
technologies to monitor soil characteristics and soil
moisture are also presented. Furthermore, the paper
discusses current and future satellite-borne sensors and
missions as well as existing data products. Due to the
prospects and limitations of the characteristics of
different RS sensors, only specific geotraits and
geodiversity characteristics can be recorded. The paper
provides an overview of those geotraits},
cin = {IBG-3},
ddc = {620},
cid = {I:(DE-Juel1)IBG-3-20101118},
pnm = {255 - Terrestrial Systems: From Observation to Prediction
(POF3-255)},
pid = {G:(DE-HGF)POF3-255},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000498395800024},
doi = {10.3390/rs11202356},
url = {https://juser.fz-juelich.de/record/865696},
}
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