Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Lobell, G. Bala, P. Duffy (2006)
Biogeophysical impacts of cropland management changes on climateGeophysical Research Letters, 33
Weidong Liu, F. Baret, Xing Gu, Qingxi Tong, Lanfen Zheng, Zhang Bing (2002)
Relating soil surface moisture to reflectanceRemote Sensing of Environment, 81
A. Matthias, A. Fimbres, E. Sano, D. Post, L. Accioly, A. Batchily, L. Ferreira (2000)
Surface roughness effects on soil albedoSoil Science Society of America Journal, 64
S. Bowers, R. Hanks (1965)
REFLECTION OF RADIANT ENERGY FROM SOILSSoil Science, 100
J. Cierniewski, Sławomir Królewicz, Cezary Kaźmierowski, J. Ceglarek, P. Kusz (2015)
Shortwave radiation reflected from the territory of Poland throughout the year as an effect of smoothing soils previously plowed and harrowed2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS)
R. Desjardins (2009)
The impact of agriculture on climate change
R. Dexter (2004)
Diurnal and seasonal albedo trends of wheat at the Bratt's Lake Observatory, Saskatchewan
Shusen Wang, R. Grant, D. Verseghy, T. Black (2002)
Modelling carbon‐coupled energy and water dynamics of a boreal aspen forest in a general circulation model land surface schemeInternational Journal of Climatology, 22
P. Marzahn, D. Rieke-Zapp, R. Ludwig (2012)
Assessment of soil surface roughness statistics for microwave remote sensing applications using a simple photogrammetric acquisition systemIsprs Journal of Photogrammetry and Remote Sensing, 72
A. Henderson‐sellers, M. Wilson (1983)
Surface albedo data for climatic modelingReviews of Geophysics, 21
J. Cierniewski, A. Karnieli, K. Kusnierek, Alexander Goldberg, I. Herrmann (2013)
Approximating the average daily surface albedo with respect to soil roughness and latitudeInternational Journal of Remote Sensing, 34
M. Roxy, V. Sumithranand, G. Renuka (2010)
Variability of soil moisture and its relationship with surface albedo and soil thermal diffusivity at Astronomical Observatory, Thiruvananthapuram, south KeralaJournal of Earth System Science, 119
K. Potter, R. Horton, R. Cruse (1987)
Soil Surface Roughness Effects on Radiation Reflectance and Soil Heat Flux1Soil Science Society of America Journal, 51
J. Norman, W. Kustas, K. Humes (1995)
Source approach for estimating soil and vegetation energy fluxes in observations of directional radiometric surface temperatureAgricultural and Forest Meteorology, 77
J. Cierniewski, A. Karnieli, Cezary Kaźmierowski, Sławomir Królewicz, J. Piekarczyk, K. Lewińska, Alexander Goldberg, Roman Wesolowski, M. Orzechowski (2015)
Effects of Soil Surface Irregularities on the Diurnal Variation of Soil Broadband Blue-Sky AlbedoIEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8
B. Pinty, M. Verstraete, R. Dickinson (1989)
A physical model for predicting bidirectional reflectances over bare soilRemote Sensing of Environment, 27
P. Oguntunde, A. Ajayi, N. Giesen (2006)
Tillage and surface moisture effects on bare-soil albedo of a tropical loamy sandSoil & Tillage Research, 85
Jie Song (1999)
Phenological influences on the albedo of prairie grassland and crop fieldsInternational Journal of Biometeorology, 42
J. Piekarczyk, Cezary Kaźmierowski, Sławomir Królewicz, J. Cierniewski (2016)
Effects of Soil Surface Roughness on Soil Reflectance Measured in Laboratory and Outdoor ConditionsIEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 9
O. Taconet, V. Ciarletti (2007)
Estimating soil roughness indices on a ridge-and-furrow surface using stereo photogrammetrySoil & Tillage Research, 93
M. Baumgardner, Leroy Silva, L. Biehl, E. Stoner (1986)
REFLECTANCE PROPERTIES OF SOILSAdvances in Agronomy, 38
J. Cierniewski, Cezary Kaźmierowski, Sławomir Królewicz (2015)
Evaluation of the Effects of Surface Roughness on the Relationship Between Soil BRF Data and Broadband AlbedoIEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8
A. Betts, J. Ball (1997)
Albedo over the boreal forestJournal of Geophysical Research, 102
J. Cierniewski, Cezary Kaźmierowski, Sławomir Królewicz, J. Piekarczyk (2013)
Effects of Soil Roughness on the Optimal Time of Cultivated Soils Observation by Satellites for the Soils Average Diurnal Albedo ApproximationIEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 6
I. Grant, A. Prata, R. Cechet (2000)
The Impact of the Diurnal Variation of Albedo on the Remote Sensing of the Daily Mean Albedo of GrasslandJournal of Applied Meteorology, 39
C. Morice, J. Kennedy, N. Rayner, P. Jones (2012)
Quantifying uncertainties in global and regional temperature change using an ensemble of observational estimates: The HadCRUT4 data setJournal of Geophysical Research, 117
J. Cipra, M. Baumgardner, E. Stoner, R. Macdonald (1971)
Measuring Radiance Characteristics of Soil with a Field Spectroradiometer 1Soil Science Society of America Journal, 35
S. Bowers, S. Smith (1972)
Spectrophotometric Determination of Soil Water ContentSoil Science Society of America Journal, 36
G. Tóth, A. Jones, L. Montanarella (2013)
The LUCAS topsoil database and derived information on the regional variability of cropland topsoil properties in the European UnionEnvironmental Monitoring and Assessment, 185
G. Farmer, J. Cook (2013)
Climate Change Science: A Modern Synthesis: Volume 1 - The Physical ClimateClimate Change Science: A Modern Synthesis
P. Sellers (1993)
Remote sensing of the land surface for studies of global change
J. Monteith, G. Szeicz (1961)
The radiation balance of bare soil and vegetationQuarterly Journal of the Royal Meteorological Society, 87
Kaicun Wang, Pucai Wang, Jing-miao Liu, M. Sparrow, S. Haginoya, Xiuji Zhou (2005)
Variation of surface albedo and soil thermal parameters with soil moisture content at a semi-desert site on the western Tibetan PlateauBoundary-Layer Meteorology, 116
AbstractSmoothing a rough, deeply plowed soil increases its albedo, which determines a lower amount of shortwave radiation absorbed by its surface layer. That surface emits less longwave radiation, leading to a reduction in its temperature, which in turn can affect the climate, influencing the energy transfer between soil, vegetation, and the atmosphere. This paper presents a multistage procedure for estimating the annual dynamics of shortwave radiation reflected from bare soils as a consequence of smoothing the previously plowed and disk-harrowed fields in Poland. This procedure takes into account the spatial diversity of soil units and their properties within bare soil surfaces (extracted from Landsat 8 images), analyzed using digital maps of land use and soils as well as soil datasets stored in soil databases. One minimum and two peaks were found in the annual distribution of the radiation amount reflected from the soils only when smoothing the data. Expressing this reflected radiation as a fraction of the daily energy reaching the studied areas with clear-skies, it was predicted that those spring and summer peaks can reach about 2.2%–2.3% and 1%, respectively, of the incident shortwave radiation for soils that had been plowed and disk harrowed.
Journal of Applied Meteorology and Climatology – American Meteorological Society
Published: Mar 28, 2017
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.