| 19 Titles Match Your Query |
Showing 1 through 19 of 19
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1.
Air-sea turbulent fluxes on the Arctic in the summer of 2004 [KPDC_TF_ANTARCTIC_KSS_2004]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2004 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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2.
Turbulent fluxes at the Antarctic King Sejong Station in 2003 [KPDC_TF_ANTARCTIC_KSS_2003]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured to December in 2003 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting of 3-D sonic ...
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3.
Turbulent fluxes at the Antarctic King Sejong Station in 2005 [KPDC_TF_ANTARCTIC_KSS_2005]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2005 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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4.
Turbulent fluxes at the Antarctic King Sejong Station in 2006 [KPDC_TF_ANTARCTIC_KSS_2006]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2006 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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5.
Turbulent fluxes at the Antarctic King Sejong Station in 2007 [KPDC_TF_ANTARCTIC_KSS_2007]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2007 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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6.
Turbulent fluxes at the Antarctic King Sejong Station in 2008 [KPDC_TF_ANTARCTIC_KSS_2008]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2008 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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7.
Turbulent fluxes at the Antarctic King Sejong Station in 2009 [KPDC_TF_ANTARCTIC_KSS_2009]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2009 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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8.
Turbulent fluxes at the Antarctic King Sejong Station in 2010 [KPDC_TF_ANTARCTIC_KSS_2010]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2010 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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9.
Turbulent fluxes at the Antarctic King Sejong Station in 2012 [KPDC_TF_ANTARCTIC_KSS_2012]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2012 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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10.
Eddy covariance data of Alaska permafrost site in 2012 summer [KDPC_ECD_ALASKA_2012]
Eddy covariance data obtained at a permafrost site of Council, Alaska, USA
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11.
Turbulent fluxes at the Antarctic King Sejong Station in 2011 [KPDC_TF_ANTARCTIC_KSS_2011]
Turbulent fluxes of momentum, heat, water vapor, and CO2 had been measured from January to December in 2011 at a coastal region of the Antarctic King Sejong station. Eddy covariance system, consisting ...
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12.
Air-sea turbulent fluxes on the Arctic in the summer of 2012 [KPDC_FLUX_ARCTIC_2012]
On board turbulent fluxes of CO2, CH4 and energy were measured during the cruise in the Chukchi Borderland/Mendeleev Ridge in boreal summer of 2012. Eddy covariance system, consisting of 3-D sonic ...
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13.
plant and animal propagules inadvertently carried into the Antarctic [FATE]
Data were collected on three sites, see under Purpose.
For Falklands Islands there are observations and countings of species, and data on soil respiration (2004, 2005).
For all three sites climate ...
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14.
Antarctic Coastal Ecology [ACE]
Objectives:
? To assess the structure and functioning of the Antarctic coastal ecosystem and the relationships between marine and terrestrial biota.
? To assess the origin of organic ...
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15.
Adaptive strategies of lichen species to cold environments: Antarctica and the Mediterranean high mountains. [CNDA-ESP_ANT94-0905_LIQ_05]
PARENT DIF
In English:
At the beginning of the 1990's our ecophysiological research on Antarctic
lichens was focussed on adaptations to cope with low temperatures. We assumed
that low ...
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16.
Biology of lichen communities in Antarctica. [CNDA-ESP_LIQ_PAD]
CHILD DIFs
In English:
This dataset contains information on the registered data on studies of the
biology of lichen communities in Antarctica. This dataset is also the parent
record ...
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17.
Photosynthesis and water relationships on Antarctic nanofruticose lichens. [CNDA-ESP_ANT94-0907-E_LIQ_06]
PARENT DIF
In English:
Scientific objectives:
-To study the photosynthetic behaviour of lichen nanofruticose species
(Bacidia Stipata, buellia cladocarpiza, Catillaria corymbosa and ...
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18.
Study of nitrogen fixation, photosynthesis and lichenic recolonisation in the Antarctic tundra. [CNDA-ESP_ANT93-0011-E_LIQ_04]
PARENT DIF
In English:
Scientific objectives:
-Evaluate the degree of nitrogen fixation in run offs by Leptogium puberulum
and Nostoc sp. in relation to their photosynthetic activity ...
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19.
Photosynthetic physiology (CO2/O2 exchange, optimum temperature and light levels) of common bryophytes species that grow in the melt streams from glaciers in the Dry Valleys [K024_1979_1980_NZ_3]
Previous work (by Rostofer, 1970) covered the photosynthetic physiology of two common bryophyte species (Bryum antarcticum and B. Argenteum) found in the melt-streams from glaciers in the Dry Valleys ...
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Showing 1 through 19 of 19
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