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Howland Forest (Main Tower)
890-Howland Forest (Main Tower)
An air relative-humidity-based evapotranspiration model from eddy covariance data
Atqasuk
Audubon Research Ranch
Austin Cary
Blodgett Forest
Bondville
Donaldson
Fort Peck
Goodwin Creek
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Kennedy Space Center (scrub oak)
Metolius New Young Pine
Missouri Ozark Site
Mize
North Carolina Clearcut
Univ. of Mich. Biological Station
Wind River Crane Site
Yan, H.
, &
Shugart H. H.
(2010).
An air relative-humidity-based evapotranspiration model from eddy covariance data
.
Journal of Geophysical Research. 115
(D16),
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BibTex
Google Scholar
Estimation of incident photosynthetically active radiation from Moderate Resolution Imaging Spectrometer data
Black Hills
Fort Peck
Howland Forest (Main Tower)
Lost Creek
Santarem-Km83-Logged Forest
Vaira Ranch
Walker Branch Watershed
Liang, S.
,
Zheng T.
,
Liu R.
,
Fang H.
,
Tsay S. - C.
, &
Running S.
(2006).
Estimation of incident photosynthetically active radiation from Moderate Resolution Imaging Spectrometer data
.
Journal of Geophysical Research. 111
(D15),
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Google Scholar
Evaluation of remote sensing based terrestrial productivity from MODIS using regional tower eddy flux network observations
Barrow
BOREAS NSA - Old Black Spruce
Duke Forest Hardwoods
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Lethbridge
Lost Creek
Metolius Old Pine
Metolius Second Young Pine
Niwot Ridge (LTER NWT1)
Park Falls
Sky Oaks- Old Stand
Sylvania Wilderness Area
Tonzi Ranch
Willow Creek
Heinsch, F. A.
,
Zhao M.
,
Running S. W.
,
Kimball J. S.
,
Nemani R. R.
,
DAVIS K. J.
, et al.
(2006).
Evaluation of remote sensing based terrestrial productivity from MODIS using regional tower eddy flux network observations
.
IEEE Transactions on Geoscience and Remote Sensing. 44
(7), 1908 - 1925.
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Deriving a light use efficiency model from eddy covariance flux data for predicting daily gross primary production across biomes
Austin Cary
Blodgett Forest
Donaldson
Duke Forest Hardwoods
Duke Forest Loblolly Pine
Duke Forest Open Field
Fort Peck
Goodwin Creek
Hesse Forest- Sarrebourg
Howland Forest (Main Tower)
Hyytiala
Lost Creek
Metolius Intermediate Pine
Metolius Old Pine
Metolius Second Young Pine
Morgan Monroe State Forest
Niwot Ridge (LTER NWT1)
Sylvania Wilderness Area
Tharandt- Anchor Station
Tonzi Ranch
UCI 1930
UCI 1964
UCI 1981
Univ. of Mich. Biological Station
Vaira Ranch
Walnut River Watershed
Willow Creek
Yuan, W.
,
Liu S.
,
Zhou G.
,
Zhou G.
,
Tieszen L. L.
,
Baldocchi D.
, et al.
(2007).
Deriving a light use efficiency model from eddy covariance flux data for predicting daily gross primary production across biomes
.
Agricultural and Forest Meteorology. 143
(3-4), 189 - 207.
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Combined Simple Biosphere/Carnegie-Ames-Stanford Approach terrestrial carbon cycle model
BOREAS NSA - Old Black Spruce
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Park Falls
Santarem-Km67-Primary Forest
SCHAEFER, K. E. V. I. N.
,
Collatz J. G.
,
Tans P.
,
Denning S. A.
,
Baker I.
,
Berry J.
, et al.
(2008).
Combined Simple Biosphere/Carnegie-Ames-Stanford Approach terrestrial carbon cycle model
.
Journal of Geophysical Research. 113
(G3),
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An empirical model simulating diurnal and seasonal CO<sub>2</sub> flux for diverse vegetation types and climate conditions
Atqasuk
Audubon Research Ranch
Barrow
Bartlett Experimental Forest
Brookings
Donaldson
Duke Forest Hardwoods
Duke Forest Loblolly Pine
Duke Forest Open Field
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Intermediate hardwood (IHW)
Ivotuk
Kennedy Space Center (scrub oak)
Mature red pine (MRP)
Metolius Intermediate Pine
Missouri Ozark Site
Mixed young jack pine (MYJP)
Park Falls
Santarem-Km67-Primary Forest
Santa Rita Mesquite
UCI 1850
UCI 1930
Walnut River Watershed
Saito, M.
,
Maksyutov S.
,
Hirata R.
, &
Richardson A. D.
(2009).
An empirical model simulating diurnal and seasonal CO
2
flux for diverse vegetation types and climate conditions
.
Biogeosciences. 6
(4), 585 - 599.
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Influence of spring phenology on seasonal and annual carbon balance in two contrasting New England forests
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Richardson, A. D.
,
HOLLINGER D. Y.
,
DAIL D. B.
,
Lee J. T.
,
MUNGER J. W.
, &
O'keefe J.
(2009).
Influence of spring phenology on seasonal and annual carbon balance in two contrasting New England forests
.
Tree Physiology. 29
(3), 321 - 331.
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An operational remote sensing algorithm of land surface evaporation
Blodgett Forest
Bondville
Duke Forest Loblolly Pine
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Little Washita Watershed
Metolius Intermediate Pine
Ponca City
Shidler
Sky Oaks
Walker Branch Watershed
Willow Creek
Nishida, K.
(2003).
An operational remote sensing algorithm of land surface evaporation
.
Journal of Geophysical Research. 108
(D9),
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Comparing simple respiration models for eddy flux and dynamic chamber data
Harvard Forest EMS Tower (HFR1)
Howland Forest (Main Tower)
Lethbridge
Richardson, A. D.
,
Braswell B. H.
,
Hollinger D. Y.
,
Burman P.
,
Davidson E. A.
,
Evans R. S.
, et al.
(2006).
Comparing simple respiration models for eddy flux and dynamic chamber data
.
Agricultural and Forest Meteorology. 141
(2-4), 219 - 234.
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Application of a dual unscented Kalman filter for simultaneous state and parameter estimation in problems of surface-atmosphere exchange
Howland Forest (Main Tower)
Gove, J. H.
, &
HOLLINGER D. Y.
(2006).
Application of a dual unscented Kalman filter for simultaneous state and parameter estimation in problems of surface-atmosphere exchange
.
Journal of Geophysical Research. 111
(D8),
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