Natura Bekesiensis - Időszakos természettudományi közlemények 5. (Békéscsaba, 2003)
Tóth József: Önéletrajzi vázlat
RJ (eds) Problems of petroleum migration. AAPG Studies in Geology No 10. p. 121-167. Tóth, J. 1996. Thoughts of a hydrogeologist on vertical migration and near-surface geochemical exploration for petroleum. In: Schumacher D, Abrams MA (eds) Hydrocarbon migration and its near-surface expression. AAPG Memoir. 66:279-283. Tóth, J. 1999. Groundwater as a geologic agent: An overview of the causes, processes, and manifestations; Hydrogeology Journal, 7(1): 1-14. Also published in translation: Las aguas subterráneas como agente geológico: causas, procesos y manifestaciones. Boletin Geologico y Minero, lll(4):9-26, 2000 July-August. Tóth, J., and I. Almási. 1998. Szénhidrogén kutatás az Alföldön hidrogeológiai szempontok figyelembevételével: Zárójelentés. A Magyar Olajés Gázipari Rt. megbízásából és számára [Hydrocarbon exploration in the Great Plain using hydrogeological principles: Final Report. Prepared for the Hungarian National Oil&Gas Company, Pic], University of Alberta, Edmonton, Canada (in-house report, in Hungarian). Tóth, J., and I. Almási. 2001. Interpretation of observed fluid potential patterns in a deep sedimentatry basin under tectonic compression: Hungarian Great Plain, Pannonian Basin; Geofluids, 1(1): 11-36. Tóth, J., and T. Corbet. 1986. Post-Paleocene evolution of regional groundwater flow-systems and their relation to petroleum accumulations, Taber area, southern Alberta, Canada. Canadian Petroleum Geology Bulletin. 34(3):339-36. Tóth, J., and G. Sheng. 1996. Enhancing safety of nuclear waste disposal by exploiting regional groundwater flow: The Recharge Area Concept; Hydrogeology Journal, 4(4):4-25. Williams, R.E. 1968. Groundwater flow systems and related highway pavement failure in cold mountain valleys. Jornal of Hydrology. 6(2):183-193. Williams, R.E. 1970. Groundwater flow systems and accumulation of evaporate minerals. AAPG Bulletin. 54(7): 1290-1295. Winter, T.C. 1978. Numerical simulation of steady-state, three-dimensional ground-water flow near lakes. Water Resources Research. 14:245-254. 20
