Chapman/Thermal Geophysics Group Master Publication List:

Not updated since 2002!

Chapman, D. S. and P. R. Critchlow, Formation of vortex rings from falling drops, J. Fluid Mechanics, 29, 1, 177-185, 1967.

Chapman, D. S., Science and mathematics teaching in Zambia, Bull. Zambia Assn. Science Education,1, 21-23, 1970.

Chapman, D. S., The moon and its wives, Bull. Zambia Assn. Science Education, 2, 9-11, 1971.

Chapman, D. S. and H. N. Pollack, Cold spot in West Africa: anchoring the African plate, Nature, 250, 477-478, 1974.

Chapman, D. S., J. Vise and H. N. Pollack, Geothermal investigations in Zambia, J. Engineering Inst. Zambia, 19, no. 3, 33-37, 1975.

Chapman, D. S. and H. N. Pollack, Heat flow and incipient rifting in the Central African plateau, Nature, 256, 28-30, 1975.

Chapman, D. S. and H. N. Pollack, Global heat flow: a new look, Earth Planet. Sci. Lett., 28, 23-32, 1975.

Chapman, D. S., Heat flow and heat production in Zambia, Ph.D. Thesis, The University of Michigan, Ann Arbor, 1976.

Pollack, H. N. and D. S. Chapman, On the regional variation of heat flow, geotherms, and lithospheric thickness, Tectonophysics, 38, 279-296, 1976.

Pollack, H. N., and D. S. Chapman, Mantle heat flow, Earth Planet Sci. Lett., 34, 174-184, 1977.

Chapman, D. S., and H. N. Pollack, Regional geotherms and lithospheric thickness, Geology, 5, 265-268, 1977.

Pollack, H. N. and D. S. Chapman, The flow of heat from the Earth's interior, Scientific American, August 1977, 60-76, 1977. (translated into Japanese Sci. Am., Nov. 1977).

Chapman, D. S.and H. N. Pollack, Heat flow and heat production in Zambia: evidence for lithospheric thinning in Central Africa, Tectonophysics, 41, 79-100, 1977.

Gass, I. G., D. S. Chapman, H. N. Pollack and R. S. Thorpe, Geological and geophysical parameters for mid-plate volcanism, Phil. Trans. Roy. Soc. A288, 581-597, 1978.

Furlong, K. P. and D. S. Chapman, Roll cell mantle convection under the Pacific plate, Nature, 274, 145-147, 1978.

Ward, S. H., W. T. Parry, W. P. Nash, K. L. Cook, R. B. Smith, D. S. Chapman, F. H. Brown, J. A. Whelan, and J. R. Bowman, A summary of the geology, geochemistry and geophysics of the Roosevelt Hot Springs thermal area, Utah, Geophysics, 43, 1515-1542, 1978.

Chapman, D. S., H. N. Pollack, and V. Cermak, Global heat flow with special reference to the European region of the globe, in: European Heat Flow, V. Cermak and L. Rybach (eds), 41-48, 1979.

Kilty, K., D.S. Chapman and C. W. Mase, Forced convective heat transfer in the Monroe Hot Springs geothermal system, J. Volcanol. Geothermal Res., 6, 257-277, 1979.

Chapman, D. S., Lithosphere, 1980 McGraw-Hill Yearbook of Science and Technology, 261-263, 1980.

Kilty, K. and D. S. Chapman, Convective heat transfer in selected geologic situations, Groundwater, 18, no. 4, 1980.

Chapman, D. S., Terrestrial heat flux, Nature - News and Views, 287, 190-191, 1980.

Sass, J. H., D. D. Blackwell, D. S. Chapman, J. K. Costain, E. R. Decker, A. H. Lachenbruch, L. A. Lawver, B. V. Marshall and R. J. Munroe, Heat flow from the crust of the United States, Chapter 13, McGraw-Hill/CINDAS Data Series on Material Properties, V. II-2, Physical Properties of Rocks and Minerals, Y. S. Touloukian, W. R. Judd, and R. F. Roy (eds), 503-548, 1981.

Pollack, H. N., I. G. Gass, R. S. Thorpe and D. S. Chapman, On the vulnerability of lithospheric plates to mid-plate volcanism: reply to comments by P. Vogt, J. Geophys. Res., 86, 961-966, 1981.

Carrier, D. L. and D. S. Chapman, Gravity and thermal models for the Twin Peaks silicic volcanic center, southwestern Utah, J. Geophys. Res., 86, 10287-10302, 1981.

Chapman, D. S., M. D. Clement and C. W. Mase, Thermal regime of the Escalante Desert, Utah with an analysis of the Newcastle geothermal system, J. Geophys. Res., 86, 11735-11746, 1981.

Bodell, J. M. and D. S. Chapman, Heat flow in the north-central Colorado Plateau, J. Geophys. Res., 87, 2869-2884, 1982.

Furlong, K. P., D. S. Chapman, and P. W. Alfeld, Thermal modeling of the geometry of subduction with implications for the tectonics of the overriding plate, J. Geophys. Res., 87, 1786-1802, 1982.

Hyndman, R. D., T. J. Lewis, J. A. Wright, M. Burgess, D. S. Chapman and M. Yamano, Queen Charlotte fault zone: heat flow measurements, Canadian J. Earth Phys., 19, 1657-1669, 1982.

Smith, L. and D. S. Chapman, On the thermal aspects of groundwater flow 1. Regional scale systems, J. Geophys. Res., 88, 593-608, 1983.

Chapman, D. S., Thermal regime of the Luanshya Mine, Republic of Zambia, Geoexploration, 21, 265-281, 1983.

Pollack, H. N., I. G. Gass, R. S. Thorpe and D. S. Chapman, Reply to "Comments on 'On the vulnerability of lithospheric plates to mid-plate volcanism': Reply to comments by P.R. Vogt, H.N. Pollack et al," by M.A. Summerfield, Jour. Geophys. Res., 88, 1251-1254, 1983.

Chapman, D. S., J. Howell and J. H. Sass, A note on drillhole depths required for reliable heat flow determinations, Tectonophysics, 103, 11-18, 1984.

Chapman, D. S., T. H. Keho, M. S. Bauer and M. D. Picard, Heat flow in the Uinta Basin determined from bottom hole temperature (BHT) data, Geophysics, 49, 453-466, 1984.

Cermak, V., L. Rybach and D. S. Chapman, (Editors) Special Issue - Terrestrial Heat Flow Studies and the Structure of the Lithosphere, Tectonophysics, 103, 356 p., 1984.

Chapman, Inga M. and D. S. Chapman (Translators), Geothermics by G. Buntebarth, Springer Verlag, Heidelberg, 144 p., 1984 (Original text in German).

Willett, S. D., D. S. Chapman and H. J. Neugebauer, Mechanical response of the continental lithosphere to surface loading: effect of thermal regimes, Annales Geophysicae, 2, 679-688, 1984.

Smith, L. and D. S. Chapman, The influence of water table configuration on the near surface thermal regime, J. Geodynamics, 4, 183-198, 1985.

Chapman, D. S., Continental heat flow, in: Landolt-Bornstein-Numerical Data and Functional Relationships in Science and Technology, New Series vol. 2, K. Fuchs and H. Soffel (eds), Springer Verlag, Berlin, 1-19, 1985.

Willett, S. D., D. S. Chapman and H. J. Neugebauer, A thermo-mechanical model of continental lithosphere, Nature, 314, 520-523, 1985.

Chapman, D. S., and L. Rybach, Heat flow anomalies and their interpretation, J. Geodynamics, 4, 3-37, 1985.

Bauer, M. S. and D. S. Chapman, Thermal regime at the Upper Stillwater dam site, Uinta Mountains, Utah: implications for terrain, microclimate and structural corrections in heat flow studies, Tectonophysics, 128, 1-20, 1986.

Chapman, D. S., Thermal gradients in the continental crust, in: The nature of the lower continental crust, J. B. Dawson, D. A. Carswell, J. Hall and K. H. Wedepohl (eds), Geol. Soc. Spec. Publ. No. 24, 63-70, 1986.

Willett, S. D. and D. S. Chapman, On the use of thermal data to resolve and delineate hydrologic flow systems in sedimentary basins: an example from the Uinta Basin, Utah, in: Proceedings of the Third Annual Canadian/American Conference on Hydrology - Hydrogeology of Sedimentary Basins: Application to Exploration and Exploitation, B. Hitchon, S. Bachu, and C. Sauveplane (eds.), Dublin, Ohio, 159-168, 1987.

Willett, S. D. and D. S. Chapman, Analysis of temperatures and thermal processes in the Uinta Basin, in: Sedimentary Basins and Basin-Forming Mechanisms, C. Beaumont and A. J. Tankard (eds), Canadian Society of Petroleum Geologists Memoir 12, Calgary, 447-461, 1987.

Furlong, K. P. and D. S. Chapman, Crustal heterogeneities and the thermal structure of the continental crust, Geophys. Res. Lett., 14, 314-317, 1987.

Chapman, D. S., Tectonophysics 1983-1986: an overview, Rev. Geophys., 25, 1215-1218, 1987.

Furlong, K. P., and D. S. Chapman, Thermal state of the lithosphere, Rev. Geophys., 25, 1255-1264, 1987.

Willett, S. D. and D. S. Chapman, Temperatures, fluid flow, and the thermal history of the Uinta Basin, in: Migration of Hydrocarbons in Sedimentary Basins, B. Doligez (ed.), Editions Technip, France, 533-552, 1987.

Deming, D. and D. S. Chapman, Inversion of bottom-hole temperature data: the Pineview field, Utah-Wyoming thrust belt, Geophysics, 53, 707-720, 1988.

Deming, D., and D. S. Chapman, Heat flow in the Utah-Wyoming thrust belt from analysis of bottom-hole temperature data measured in oil and gas wells, J. Geophys. Res., 93, 13, 657-13, 672, 1988.

Powell, W. G., D. S. Chapman, N. Balling and A. E. Beck, Continental heat flow density, in: Handbook of Terrestrial Heat-Flow Density Determination, R. Haenel, L. Stegena and L. Rybach (eds), Kluwer Academic Publishers, Dordrecht, 167-222, 1988.

Chapman, D. S., D. Deming and S. Willett, Analysis of temperatures in sedimentary basins, in: Extensional Basin Modelling and Paleotemperature Reconstruction, C. Salle, R. M. Larsen and R. Sinding-Larsen (eds) IUGS Special Publication, 1989.

Willett, S.D., and D.S. Chapman, Temperatures, fluid flow and heat transfer mechanisms in the Uinta Basin, in: Hydrologic Regimes and their Subsurface Thermal Effects, , [extended abstract], A.E. Beck and G. Garven (eds.), Monograph (Proceedings) of 1987 IUGG Symposium U8, American Geophysical Union, Washington, D.C., 29-33, 1989.

Davis, E. E., D. S. Chapman, C. B. Forster, and H. Villinger, Heat flow variations correlated with buried basement topography on the Juan de Fuca Ridge flank, Nature, 342, 533-537, 1989.

Deming, D., and D.S. Chapman, Thermal histories and hydrocarbon generation: an example from the Utah-Wyoming thrust belt, Amer. Assn. Petroleum Geol. Bull., 93, 1455-1471, 1989.

Blackett, R. E., M. A. Shubat, D. S. Chapman, C. B. Forster, and C. M. Schlinger, An assessment of geothermal resources at Newcastle, Utah, [extended abstract] Trans. Geothermal Resources Council, 13, 109-116, 1989.

Wong, I., and D. S. Chapman, Deep intraplate earthquakes in the Western United States and their thermal implications, Bull. Seismol. Soc. Am., 80, 1990.

Brigaud, F., D.S. Chapman, and S. Le Douaran, Thermal conductivity in sedimentary basins predicted from lithologic data and geophysical well logs, Amer. Assn. Petroleum. Geol. Bull., 74, 1459-1477, 1990.

Powell, W. G., and D. S. Chapman, A. detailed study of heat flow at the Fifth Water site, Utah, in the Basin and Range-Colorado Plateau transition, Tectonophysics, 176, no. 3/4, 291-314, 1990.

Deming, D., J. A. Nunn, S. Jones, and D. S. Chapman, Some problems in Thermal History studies, in: Applications of Thermal Maturity Studies to Energy Exploration, V. F. Nuccio and C. E. Barker (eds.), RMS, SEPM Monograph, 61-80, 1990.

Chapman, D.S., Global warming: detecting climate change in permafrost and temperate regions of North America, Proc. 6th Wharangdae International Symposium, Korea Military Academy, Seoul, p. 441-471, 1991.

Chapman, D.S., S.D. Willett, and C. Clauser, Using thermal fields to estimate basin-scale permeabilities, in: Petroleum Migration, W.A. England, and A.J. Fleet (eds.) , Geol. Soc. Spec. Pub. No. 59, 123-126, 1991.

Han, U., and D. S. Chapman, Continental heat flow data, J. Geol. Soc. Korea, 27, no 5, 493-499, 1991.

Chapman, D.S., and K.P. Furlong, The thermal state of the lower crust, in Continental Lower Crust, D.M. Fountain, R.J. Arculus, and R.M. Kay (eds.), Development in Geotectonics Volume 23, Elsevier, Amsterdam, 179-199, 1992.

Chisholm, T., and D.S. Chapman, Climate change inferred from analysis of borehole temperatures: an example from western Utah, J. Geophys. Res., 97, 14,155-14,175, 1992.

Davis, E.E., D.S. Chapman, M.J. Mottl, W.J. Bentkowski, K. Dadey, C. Forster, R. Harris, S. Nagihara, K. Rohr, G. Wheat, and M. Whiticar, FlankFlux: an experiment to study the nature of hydrothermal circulation in young ocean crust, Can. J. Earth Sci., 29, 925-952, 1992.

Chapman, D.S., T.J. Chisholm, and R. N. Harris, Combining borehole temperature and meteorological data to constrain past climate change, Palaeogeography, Palaeoclimatology, Palaeoecology (Global and Planetary Change Section), 98, 269-281, 1992.

Pollack, H.N., and D.S. Chapman, Underground records of changing climate, Scientific American, June Issue, p. 46-52, 1993.

Chapman, D.S., and R.N. Harris, Repeat temperature measurement in borehole GC-1, northwestern Utah: towards isolating a climate-change signal in borehole temperature profiles, Geophys. Res. Lett., 20, 1891-1894, 1993.

Harris, R.N., and D.S. Chapman, A comparison of mechanical thickness estimates from trough and seamount loading in the southeastern Gulf of Alaska, J. Geophys. Res., 99, 9297-9317, 1994.

Armstrong, P. A., D. S. Chapman, R. H.Funnell, R. G. Allis, and P.J.J. Kamp, Thermal state, thermal modelling, and hydrocarbon generation in the Taranaki basin, New Zealand, Proceedings of the New Zealand Petroleum Conference 1994, Ministry of Commerce, Rotorua, New Zealand, 289-307, 1994.

Beltrami, H.J., and D.S. Chapman, Drilling for a past climate, New Scientist, no. 1922, 23 April issue, 36-40, 1994.

Han, U., and D. S. Chapman, Residual heat flow and crustal properties, Econ. Environ. Geol., 27, no. 4, 397-409, 1994.

Harris, R.N., and D.S. Chapman, Climate change on the Colorado Plateau of eastern Utah inferred from borehole temperatures, J. Geophys. Res., 100, 6367-6381, 1995.

Chapman, D.S., E. Davis, H. Villinger, A. Rosenberger, and D. Pribnow, Fluid flow in young crust targeted for study, JOI/USSAC Newsletter, Washington, D.C., v. 8, no. 3, 1-4, 1995.

Beltrami, H., D.S. Chapman, S. Archambault, and Y. Bergeron, Reconstruction of high resolution ground temperature histories combining dendrochronological and geothermal data, Earth Planet. Sci. Lett., 136, 437-445, 1995.

Han, Uk, and D.S. Chapman, Thermal isostasy: elevation changes of geologic provinces, J. Geol. Soc. Korea, 31, no. 2, 106-115, 1995.

Davis, E.E., D.S. Chapman and C.B. Forster, Observations concerning the vigor of hydrothermal circulation in young ocean crust, J. Geophys. Res., 101, 2927-2942, 1996.

Armstrong, P.A., D.S. Chapman, R.H. Funnell, R.G. Allis, and P.J.J. Kamp, Thermal modelling and hydrocarbon generation in an active-margin basin: the Taranaki basin, New Zealand, AAPG Bull., 80, 1216-1241, 1996.

Putnam, S.N., and D.S. Chapman, A geothermal climate-change observatory: first year results from Emigrant Pass Observatory in northwest Utah, J. Geophys. Res., 101, 21,877-21,890, 1996.

Funnell, R.H., D.S. Chapman, R.G. Allis, and P.A. Armstrong, Thermal state of the Taranaki basin, New Zealand, J. Geophys. Res. 101, 25197-25215, 1996.

McPherson, B.J., and D.S. Chapman, Geothermal analysis of the southern Powder River basin, Wyoming, Geophysics, 61, 1689-1701, 1996.

Davis, E.E., and D.S. Chapman, Problems with imaging cellular hydrothermal convection in oceanic crust, Geophys. Res. Lett., 23, 3551-3554, 1996.

Harris, R.N., and D.S. Chapman, Borehole temperatures and a baseline for 20th century global warming estimates, Science, 275, 1618-1621, 1997.

Armstrong, P.A., P/J.J. Kamp, R.G. Allis, and D.S. Chapman, Thermal effects of intrusion below the Taranaki basin, New Zealand: evidence from combined apatite fission track age and vitrinite reflectance data, Basin Research, 9, 151-169, 1997.

Davis, E.E., K. Wang, J. He, D.S. Chapman, H. Villinger, and A. Rosenberg, An unequivocal case for high Nusselt-number hydrothermal convection within sediment-sealed igneous oceanic crust, Earth Planet. Sci. Lett., 146, 137-150, 1997.

Harris, R.N. and D.S. Chapman, Geothermics and climate change: 1. Analysis of borehole temperatures with emphasis on resolving power, J. Geophys Res., 103, 7363-7370, 1998.

Harris, R.N. and D.S. Chapman, Geothermics and climate change: 2. Joint analysis of borehole temperature and meteorological data, J. Geophys Res., 103, 7371-7383, 1998.

Armstrong, P.A., and D.S. Chapman, Beyond surface heat flow: an example from a tectonically active sedimentary basin, Geology, 26, 183-186, 1998.

Armstrong, P.A., R.G. Allis, R.H. Funnell, and D.S. Chapman, Late Neogene exhumation patterns in Taranaki Basin (New Zealand): evidence from offset porosity-depth trends, J. Geophys. Res., 103, 30269-30282, 1998.

Chapman, D.S., Global warming: just hot air?, William R. and Erlyn J. Gould Distinguished Lecture on Technology and the Quality of Life, J. Willard Marriott Library, University of Utah, Salt Lake City, 36 p., 1998.

Armstrong, P.A., and D.S. Chapman, , Combining tectonic and temperature evolution in Taranaki Basin, in: Geothermics in Basin Analysis, A Forster and D. Merriam (eds), Kluwer/Plenum, 151-176, 1999.

Davis, E.E., D.S. Chapman, K. Wang, H. Villinger, A.T. Fisher, S.W. Robinson, J. Grigel, D. Pribnow, J. Stein, and K. Becker, Regional heat-flow variations across the sedimented Juan de Fuca Ridge eastern flank: constraints on lithospheric cooling and lateral hydrothermal heat transport, J. Geophys. Res., 104, B8, 17,675-17,688, 1999.

Ehlers, T.A., and D.S. Chapman, Normal fault thermal regimes: conductive and hydrothermal heat transfer surrounding the Wasatch Fault, Utah, Tectonophysics, 312, 217-234, 1999.

Iturrino, G. J, E. Davis, J. Johnson, H. Groschel-Becker, T. Lewis, D. Chapman, and V. Cermak,

Permeability, electrical, and thermal properties of sulfide, sedimentary, and basaltic units from the Bent Hill Area of Middle Valley, Juan de Fuca Ridge, Proc. ODP Sci. Results, 169, Ocean drilling Program, Volume 169 Scientific Results, 2000.

Harris, Robert N. and D.S. Chapman, Mid-Latitude (30-60N) climatic warming inferred by combining borehole temperatures with surface air temperatures, Geophys. Res. Lett. Vol. 28, No. 5, 747-750, 2001.

Harris, R.N., and D.S. Chapman., Climatic extremes, Energy Magazine, v. 27, no. 2, 15-17, 2001.

Allis, R.G., P. Gettings, W.F. Isherwood, and D.S. Chapman, Precision gravity changes at The Geysers Geothermal Reservoir, 1975-200, Proceedings of the 26th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, CA, Jan. 29-31, 11 pp., 2001.

Ehlers, T.A., P.A. Armstrong, and D.S. Chapman, Normal fault thermal regimes and the interpretation of low-temperature thermochronometers, Physics of the Earth and Planetary Interiors, 126, 179-194, 2001.

Roy, S, R.N. Harris, R.U.M. Rao, and D.S. Chapman, Climate Change in India Inferred From Geothermal Observations, J. Geophys. Res., 10.1029/2001JB000536, 2002

Harris, R.N., and D.S. Chapman, Reply to Comments by T.J. Osborn and K.R. Briffa on "Mid-Latitude (30o - 60 o N) climatic warming inferred by combining borehole temperatures with surface air temperatures", Geophys. Res. Lett., v. 29, no. 16, 10.1029/2001GL013769, 2002.

Gettings, P., R.N. Harris, R.G. Allis, and D.S. Chapman, Gravity signals at The Geysers geothermal system, Proceedings of the 27th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, CA, Jan. 28-30, 8 pp., 2002.

Armstrong, P.A., T.A. Ehlers, D.S. Chapman, K.A. Farley, and P.J.J. Kamp, Exhumation of the Central Wasatch Mountains, Utah: 1, Constraints from low-temperature thermochronometers, J. Geophys. Res., in review, 2002.

Ehlers, T.A., S. D. Willett, P.A. Armstrong, and D.S. Chapman, Exhumation of the Central Wasatch Mountains, Utah: 2, Thermo-kinematics of exhumation and thermochronomoter interpretation, J. Geophys. Res., in review, 2002.

Harris, R.N., and D.S. Chapman, Borehole temperatures and climate change: a global perspective, in Ehleringer, J. (ed) A History of Atmospheric CO2 and its Effect on Plants, Animals, and Ecosystems, submitted January, 2002.

Harris, R. N., and D. S. Chapman, Deep-seated oceanic heat flow, heat deficits, and hydrothermal circulation, in Hydrogeology of the Oceanic Lithosphere, E. Davis and H. Elderfield, Editors, Cambridge University Press, submitted September 2002.

Bartlett, M, D.S. Chapman, and R.N. Harris, Snow and the ground temperature record of climate change, J. Geophys. Res., submitted October 2002.