PE&RS November 2015 - page 872

Mcfarland, M.J., R.J. Miller, and M. Christopher, 1990. Land surface
temperature derived from the SSM/I passive microwave
brightness temperature,
IEEE Transactions on
,
28(5):839–845.
McMillin, L.M., 1975. Estimation of sea surface temperature from
two infrared window measurements with different absorptions,
Journal of Geophysical Research
, 80:5113–5117.
Miller, D.H., 1956. The influence of snow cover on local climate in
Greenland,
Journal of Meteorology
, 13(1):112–120.
Nichol, J., 2009. An emissivity modulation method for spatial
enhancement of thermal satellite images in urban heat island
analysis,
Photogrammetric Engineering & Remote Sensing
,
75(5):547–556.
Niclòs, R., V. Caselles, C. Coll, and E. Valor, 2007. Determination
of sea surface temperature at large observation angles using
an angular and emissivity-dependent split-window equation,
Remote Sensing of Environment
, 111(1):107–121.
Ouaidrari, H., S.N. Goward, K.P. Czajkowski, J.A. Sobrino, and E.
Vermote, 2002. Land surface temperature estimation from
AVHRR thermal infrared measurements, An assessment for
the AVHRR land Pathfinder II data set,
Remote Sensing of
Environment
, 81(1):114–128.
Peña, M.A., 2009. Examination of the land surface temperature
response for Santiago, Chile,
Photogrammetric Engineering &
Remote Sensing
, 75(10):1191–1200.
Peter, U.C., B.A. Richard, and P. David, 1999. Northern hemisphere
ice-sheet influences on global climate change,
Science
,
286(5442):1104–1111.
Price, J.C., 1984. Land surface temperature measurements from the
split window channels of the NOAA-7 advanced very high
resolution radiometer,
Journal of Geophysical Research
, 89(D5):
231–237.
Qin, Z., G.D. Olmo, and A. Karnieli, 2001. Derivation of split
window algorithm and its sensitivity analysis for retrieving land
surface temperature from NOAA advanced very high resolution
radiometer data,
Geophysical Research
, 106(D19):22655–22670.
Rajasekar, U., and Q. Weng, 2009. Application of association rule
mining for exploring the relationship between urban land
surface temperature and biophysical/social parameters,
Photogrammetric Engineering & Remote Sensing
, 75(4):385–396.
Salisbury, J.W., D.M. D’Aria, and A. Wald, 1994. Measurements of
thermal infrared spectral reflectance of frost, snow, and ice,
Journal of Geophysical Research
, 99(B12):24235–24240.
Shu, Q., F. Qiao, Z. Song, and C. Wang, 2012. Sea ice trends in the
Antarctic and their relationship to surface air temperature
during 1979 - 2009,
Climate Dynamics
, 38(11-12):1–9.
Shuman, C.A., D.K. Hall, N.E. Digirolamo, T.K. Mefford, and M.J.
Schnaubelt, 2014. Comparison of near-surface air temperatures
and MODIS ice surface temperatures at Summit, Greenland
(2008-13),
Journal of Applied Meteorology and Climatology
,
53(9):2171–2180.
Steffen, K., J.E. Box, and W. Abdalati, 1996. Greenland climate
network: GC-Net,
US Army Cold Regions Research and
Engineering (CRREL)
, pp. 98–103.
Stroeve, J., M. Haefliger, and K. Steffen, 1996. Surface temperature
from ERS-1 ATSR infrared thermal satellite data in polar regions,
Journal of Climate and Applied Meteorology
, 35(8):1231–1239.
Sobota, I., 2011. Snow accumulation, melt, mass loss, and the near-
surface ice temperature structure of Irenebreen, Svalbard,
Polar
Science
, 5(3):327–336.
Tang, B.H., Y. Bi, Z.L. Li, and J. Xia, 2008. Generalized split-window
algorithm for estimate of land surface temperature from Chinese
geostationary FengYun meteorological satellite (FY-2C) data,
Sensors
, 8(2):933–951.
Thenkabail, P., P. GangadharaRao, T. Biggs, M. Krishna, and H. Turral,
2007. Spectral matching techniques to determine historical
land-use/land-cover (LULC) and irrigated areas using time-
series 0.1-degree AVHRR Pathfinder datasets,
Photogrammetric
Engineering & Remote Sensing
, 73(10):1029–1040.
Veihelmann, B., F.S. Olesen, and C. Kottmeier, 2001. Sea ice surface
temperature in the Weddell Sea (Antarctica) from drifting
buoy and AVHRR data,
Cold Regions Science and Technology
,
33(1):19–27.
Vincent, R.K., 2000. Forecasts of monthly averaged daily temperature
highs in Bowling Green, Ohio from monthly sea surface
temperature anomalies in the Eastern Pacific ocean during the
previous year,
Photogrammetric Engineering & Remote Sensing
,
66(8):1001–1010.
Wald, A., 1994. Modeling thermal infrared (2-14 μm) reflectance
spectral of frost and snow,
Journal of Geophysical Research
,
99(24):241–24, 250.
Wan, Z., D. Ng, and J. Dozier, 1994. Spectral emissivity measurements
of land-surface materials and related radiative transfer
simulations,
Advances in Space Research
, 14(3):91–94.
Warren, S.G., 1982. Optical properties of snow,
Reviews of Geophysics
and Space Physics
, 20(1):67–89.
Wynne, R.H., and T.M. Lillesand, 1993. Satellite observation of
lake ice as a climate indicator: Initial results from statewide
monitoring in Wisconsin,
Photogrammetric Engineering &
Remote Sensing
, 59(6):1023–1031.
Xiao, R., Q. Weng, Z. Ouyang, W. Li, E.W. Schienke, and Z. Zhang,
2008. Land surface temperature variation and major factors in
Beijing, China,
Photogrammetric Engineering & Remote Sensing
,
74(4):451–461.
Zwally, H.J., W. Abdalati, T. Herring, K. Larson, J. Saba, and K.
Steffen, 2002. Surface melt-induced acceleration of Greenland
ice-sheet flow,
Science
, 297(5579):218–222.
(Received 20 October 2014; accepted 30 June 2015; final ver-
sion 08 July 2015)
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