Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- 1 Introduction
- 2 The Factor Separation Methodology and the fractional approach
- 3 Investigation of the Factor Separation features for basic mathematical functions
- 4 Factor Separation Methodology and paleoclimates
- 5 Meso-meteorology: Factor Separation examples in atmospheric meso-scale motions
- 6 Using the Alpert–Stein Factor Separation Methodology for land-use land-cover change impacts on weather and climate process with the Regional Atmospheric Modeling System
- 7 Application of Factor Separation to heavy rainfall and cyclogenesis: Mediterranean examples
- 8 Experience in applying the Alpert–Stein Factor Separation Methodology to assessing urban land-use and aerosol impacts on precipitation
- 9 Free and forced thermocline oscillations in Lake Tanganyika
- 10 Application of the Factor Separation Methodology to quantify the effect of waste heat, vapor and pollution on cumulus convection
- 11 The use of the Alpert–Stein Factor Separation Methodology for climate variable interaction studies in hydrological land surface models and crop yield models
- 12 Linear model for the sea breeze
- 13 Experience and conclusions from the Alpert–Stein Factor Separation Methodology
- 14 Tagging systematic errors arising from different components of dynamics and physics in forecast models
- 15 Some difficulties and prospects
- 16 Summary
- Appendix: References employing the Alpert–Stein Factor Separation Methodology
- References
- Index
Appendix: References employing the Alpert–Stein Factor Separation Methodology
Published online by Cambridge University Press: 03 May 2011
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- 1 Introduction
- 2 The Factor Separation Methodology and the fractional approach
- 3 Investigation of the Factor Separation features for basic mathematical functions
- 4 Factor Separation Methodology and paleoclimates
- 5 Meso-meteorology: Factor Separation examples in atmospheric meso-scale motions
- 6 Using the Alpert–Stein Factor Separation Methodology for land-use land-cover change impacts on weather and climate process with the Regional Atmospheric Modeling System
- 7 Application of Factor Separation to heavy rainfall and cyclogenesis: Mediterranean examples
- 8 Experience in applying the Alpert–Stein Factor Separation Methodology to assessing urban land-use and aerosol impacts on precipitation
- 9 Free and forced thermocline oscillations in Lake Tanganyika
- 10 Application of the Factor Separation Methodology to quantify the effect of waste heat, vapor and pollution on cumulus convection
- 11 The use of the Alpert–Stein Factor Separation Methodology for climate variable interaction studies in hydrological land surface models and crop yield models
- 12 Linear model for the sea breeze
- 13 Experience and conclusions from the Alpert–Stein Factor Separation Methodology
- 14 Tagging systematic errors arising from different components of dynamics and physics in forecast models
- 15 Some difficulties and prospects
- 16 Summary
- Appendix: References employing the Alpert–Stein Factor Separation Methodology
- References
- Index
Summary
Alpert, P., and Tsidulko, M. (1994). Project WIND: numerical simulations with Tel Aviv model PSU-NCAR model run at Tel Aviv University. In Mesoscale Modeling of the Atmosphere (Eds. R.A. Pielke and R. P. Pearce), Meteorological Monographs, 25, No. 47, Boston: American Meteorological Society, pp. 81–95.
Alpert, P., Tsidulko, M., and Stein, U. (1995). Can sensitivity studies yield absolute comparisons for the effect of several processes? J. Atmos. Sci., 52, 597–601.
Alpert, P., Stein U., and Tsidulko, M. (1995). Role of sea fluxes and topography in eastern Mediterranean cyclogenesis. The Global Atmosphere-Ocean System, 3, 55–79.
Alpert, P., Krichak, S. O., Krishnamurti, T. N., Stein, U., and Tsidulko, M. (1996). The relative roles of lateral boundaries, initial conditions and topography in mesoscale simulations of lee cyclogenesis. J. Appl. Meteor., 35(7), 1091–1099.
Alpert, P., Tzidulko, M., Krichak, S. O., and Stein, U. (1996). A multi-stage evolution of an ALPEX cyclone. Tellus, 48A, 209–220.
Alpert, P., Tzidulko, M., and Izigsohn, D. (1999).Ashallow short- lived meso-beta cyclone over the gulf of Antalya, eastern Mediterranean. Tellus, 51A, 249–262.
Alpert, P., Niyogi, D., Pielke, R. A. Sr., et al. (2006). Evidence for carbon dioxide and moisture interactions from the leaf cell up to global scales: Perspective on humancaused climate change. Global and Planetary Change, 54, 202–208.
Berger, A. (2001). The role of CO2, sea-level and vegetation during the Milankovitchforced glacial-interglacial cycles. In Proceedings “Geosphere-Biosphere Interactions and Climate”(Eds. L. O. Bengtsson and, C. U. Hammer), New York: Cambridge University Press, pp. 119–146.
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- Factor Separation in the AtmosphereApplications and Future Prospects, pp. 250 - 253Publisher: Cambridge University PressPrint publication year: 2011