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Sylvania Wilderness Area
1008-Sylvania Wilderness Area
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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Systematic assessment of terrestrial biogeochemistry in coupled climate-carbon models
Harvard Forest EMS Tower (HFR1)
Sylvania Wilderness Area
Walker Branch Watershed
Randerson, J. T.
,
HOFFMAN F. O. R. R. E. S. T. M.
,
Thornton P. E.
,
MAHOWALD N. A. T. A. L. I. E. M.
,
LINDSAY K. E. I. T. H.
,
LEE Y. E. N. - H. U. E. I.
, et al.
(2009).
Systematic assessment of terrestrial biogeochemistry in coupled climate-carbon models
.
Global Change Biology. 15
(10), 2462 - 2484.
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Sylvania Wilderness Area Site Gallery
Sylvania Wilderness Area
Pictures from the Sylvania Wilderness Area FLUXNET tower site.
Identification of a general light use efficiency model for gross primary production
Audubon Research Ranch
Bartlett Experimental Forest
Black Hills
Blodgett Forest
BOREAS NSA - Old Black Spruce
Brasschaat (De Inslag Forest);
Castelporziano
Donaldson
Duke Forest Hardwoods
Duke Forest Loblolly Pine
Flakaliden
Fort Peck
GLEES
Goodwin Creek
Griffin- Aberfeldy-Scotland
Hainich
Harvard Forest EMS Tower (HFR1)
Hesse Forest- Sarrebourg
Howland Forest (East Tower Harvest Site)
Hyytiala
Le Bray (after 6/28/1998)
Lethbridge
Loobos
Metolius First Young Pine
Metolius Intermediate Pine
Missouri Ozark Site
Morgan Monroe State Forest
Neustift/Stubai Valley
Niwot Ridge (LTER NWT1)
Norunda
Oensingen1 grass
Puechabon
Roccarespampani1
Soroe- LilleBogeskov
Sylvania Wilderness Area
Tharandt- Anchor Station
Univ. of Mich. Biological Station
Vaira Ranch
Vielsalm
Walker Branch Watershed
Wetzstein
Willow Creek
Wind River Crane Site
Yatir
Horn, J. E.
, &
Schulz K.
(2011).
Identification of a general light use efficiency model for gross primary production
.
Biogeosciences. 8
(4), 999 - 1021.
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Estimating nocturnal ecosystem respiration from the vertical turbulent flux and change in storage of CO2
British Columbia- Campbell River - Mature Forest Site
Donaldson
Fontainebleau
guyaflux
Hainich
Harvard Forest EMS Tower (HFR1)
Hyytiala
Laegeren
Loobos
Mature hardwood (MHW)
Metolius Old Pine
Missouri Ozark Site
Morgan Monroe State Forest
Oak Openings
Parque Stadual de Mata Seca
Renon/Ritten (Bolzano);
Sylvania Wilderness Area
Tharandt- Anchor Station
Tumbarumba
Vielsalm
Wallaby Creek
Wetzstein
Willow Creek
Wind River Crane Site
van Gorsel, E.
,
Delpierre N.
,
Leuning R.
,
Black A.
,
Munger W. J.
,
Wofsy S.
, et al.
(2009).
Estimating nocturnal ecosystem respiration from the vertical turbulent flux and change in storage of CO2
.
Agricultural and Forest Meteorology. 149
(11), 1919 - 1930.
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Climate control of terrestrial carbon exchange across biomes and continents
Abisko
Amplero
Atqasuk
BOREAS NSA - Old Black Spruce
British Columbia- Campbell River - Mature Forest Site
Castelporziano
Degero Stormyr (NECC);
Dripsey
Eastern Peatland- Mer Bleue
Espirra
Fermi National Accelerator Laboratory - (Agricultural site)
Flakaliden
Fort Peck
Hegyhatsal Tower 2
Ivotuk
Kaamanen wetland
Laqueuille
Laqueuille extensive
Lille Valby (Rimi);
Little Prospect Hill
Metolius Second Young Pine
Monte Bondone
Nonantola
North Carolina Loblolly Plantation
Norunda
Ontario- Groundhog River-Mature Boreal Mixed Wood
Ontario- Turkey Point Mature White Pine
Ontario- Turkey Point Young White Pine
Park Falls
Quebec Boreal Cutover Site
Quebec Mature Boreal Forest Site
Roccarespampani2
San Rossore
Sask- 2002 Harvested Jack Pine
Sask- SSA 1975 Harv Yng Jack Pine
Sask- SSA Old Jack Pine
Siikaneva (NECC);
Sodankyla
Sylvania Wilderness Area
Takayama- Gifu
UCI 1964wet
UCI 1989
UCI 1998
Walker Branch Watershed
Wetzstein
Willow Creek
Zerbolo-Parco Ticino- Canarazzo
Yi, C.
,
Ricciuto D.
,
Li R.
,
Wolbeck J.
,
Xu X.
,
NILSSON M. A. T. S.
, et al.
(2010).
Climate control of terrestrial carbon exchange across biomes and continents
.
Environmental Research Letters. 5
(3), 034007.
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