12.9: References

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Tyson Oschner
Coalinga College

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1.Ren, H., et al., Empirical algorithms to map global broadband emissivities over vegetated surfaces.IEEE Transactions on Geoscience and Remote Sensing, 2013. 51(5): p. 2619-2631.

2.Sanchez, J.M., et al., Thermal infrared emissivity dependence on soil moisture in field conditions.IEEE Transactions on Geoscience and Remote Sensing, 2011. 49(11): p. 4652-4659.

3.Ogawa, K., T. Schmugge, and S. Rokugawa, Estimating Broadband Emissivity of Arid Regions and Its Seasonal Variations Using Thermal Infrared Remote Sensing.IEEE Transactions on Geoscience and Remote Sensing, 2008. 46(2): p. 334-343.

4.Cheng, J. and S. Liang, Estimating the broadband longwave emissivity of global bare soil from the MODIS shortwave albedo product.Journal of Geophysical Research: Atmospheres, 2014. 119(2): p. 614-634

5.Feldman, D.R., et al., Observational determination of surface radiative forcing by CO2 from 2000 to 2010.Nature, 2015. 519(7543): p. 339-343.

6.Philipona, R., et al., Anthropogenic greenhouse forcing and strong water vapor feedback increase temperature in Europe.Geophysical Research Letters, 2005.32: L19809. doi:10.1029/2005GL023624.

7. Baker, J.M., et al., Tillage and carbon sequestration--What do we really know?Agriculture, Ecosystems, and Environment, 2007. 118: p. 1-5.

8.Herrero, J. and M. Polo, Parameterization of atmospheric longwave emissivity in a mountainous site for all sky conditions.Hydrology and Earth System Sciences, 2012. 16(9): p. 3139-3147.

9.Staley, D. and G. Jurica, Effective atmospheric emissivity under clear skies.Journal of Applied Meteorology, 1972. 11(2): p. 349-356.

10.Ochsner, T.E., T.J. Sauer, and R. Horton, Field Tests of the Soil Heat Flux Plate Method and Some Alternatives.Agronomy Journal, 2006. 98(4): p. 1005-1014.

11.Sauer, T.J., et al., Surface energy balance of a corn residue-covered field.Agricultural and Forest Meteorology, 1998. 89(3–4): p. 155-168.

12.Horton, R., et al., Crop residue effects on surface radiation and energy balance —review.Theoretical and Applied Climatology, 1996. 54(1): p. 27-37.

13.Bonachela, S., et al., Effects of gravel mulch on surface energy balance and soil thermal regime in an unheated plastic greenhouse.Biosystems Engineering, 2020. 192: p. 1-13.

14.Jones, H., et al., Characterization of shortwave and longwave properties of several plastic film mulches and their impact on the surface energy balance and soil temperature.Solar Energy, 2021. 214: p. 457-470

15.Bremer, D.J. and J.M. Ham, Effect of spring burning on the surface energy balance in a tallgrass prairie.Agricultural and Forest Meteorology, 1999. 97(1): p. 43-54.

16.Montague, T. and R. Kjelgren, Energy balance of six common landscape surfaces and the influence of surface properties on gas exchange of four containerized tree species.Scientia Horticulturae, 2004. 100(1): p. 229-249.

17.Allen, R.G., et al., Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56, in FAO, Rome. 1998. p. D05109.

18.Hargreaves, G.H. and R.G. Allen, History and evaluation of Hargreaves evapotranspiration equation.Journal of Irrigation and Drainage Engineering, 2003. 129(1): p. 53-63.

19.Hargreaves, G.H. and Z.A. Samani, Estimating potential evapotranspiration.Journal of the Irrigation and Drainage Division, 1982. 108(3): p. 225-230.

20.Krueger, E.S., Y.T. Yimam, and T.E. Ochsner, Human factors were dominant drivers of record low streamflow to a surface water irrigation district in the US southern Great Plains.Agricultural Water Management, 2017. 185: p. 93-104.

21.Penman, H.L., Natural Evaporation from Open Water, Bare Soil and Grass.Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1948. 193(1032): p. 120-145.

22.Monteith, J.L. Evaporation and environment. Symp. Soc. Exp. Biol. 1965.

23.Yimam, Y.T., et al., Soil Water Dynamics and Evapotranspiration under Annual and Perennial Bioenergy Crops.Soil Sci. Soc. Am. J., 2014. 78(5): p. 1584-1593

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