References Cone, M.P. and Kersey, D.G. (1992), Porosity, in"The Development Geology Reference Manual,(Morton-Thompson, D and A M Woods Eds ) AAPG Methods in Exploration Series, No. 10, The American Association of Petroleum Geologists, Tulsa. Oklahoma, U.S.A., p204 to 209 Choquette, P.w. and Pray, L.C.(1970)Geological nomenclature and classification of porosity in sedimentary carbonates. AAPG 207-250 Lucia, F.J.(1995), Rock-fabric/petrophysical classification of carbonate pore space for reservoir characterisation, AAPG Bulletin, 79,p1275-1300 Pittman, E D, 1979, Porosity, diagenesis and productive capability of sandstone reservoirs: in, Aspects of Diagenesis (Scholle, P.A. and P. R. Schluger, Eds ) Society of Economic Paleontologists and Mineralogists Special Publication 26, p.p. 159-173 Swanson,RG, 1981, Sample Examination manual, AAPG Methods in exploration Series, AAPG, Tulsa, Oklahoma, Tucker, M. E. and Wright, PV.(1990)Carbonate Sedimentology, Blackwell Scientific Publications, Oxford, Londo Edinburgh, Boston, Melbourne 482p Acknowledgments I would like to thank the following for their kind permission to use images in this linked exercise The AAPG Calgary Rock and Materials Services Inc and Hayden Geological Consultants K M. Bergman Answers Figure 8. Sample 1. Porosity type= intergranular; porosity amount 14% Figure 9. Sample 2. Porosity type= intergranular; porosity amount 10% Figure 10. Sample 3. Porosity type= intergranular, porosity amount 8% 11 ple 4. Porosity type porosity amount-26% Figure 12. Sample 5. Porosity type= intergranular(interparticle); porosity amount% Figure 13. Sample 6. Porosity type vuggy (not fabric selective); porosity amount-32% Figure 14. Sample 7. Porosity type moldic; porosity amount-17% Figure 15. Sample 8. Porosity type= interparticle and intraparticle, porosity amount% Figure 16. Sample 9. Porosity type= fracture, porosity amount%7 References Cone, M.P. and Kersey, D.G. (1992), Porosity, in ‘The Development Geology Reference Manual’, (Morton-Thompson, D and A. M Woods Eds.) AAPG Methods in Exploration Series, No. 10, The American Association of Petroleum Geologists, Tulsa, Oklahoma, U.S.A., p204 to 209 Choquette, P.W. and Pray, L.C. (1970) ‘Geological nomenclature and classification of porosity in sedimentary carbonates.’ AAPG Bulletin, v54, 207-250 Lucia, F.J. (1995), 'Rock-fabric/petrophysical classification of carbonate pore space for reservoir characterisation', AAPG Bulletin, v79, p1275-1300 Pittman, E.D., 1979, Porosity, diagenesis and productive capability of sandstone reservoirs: in, Aspects of Diagenesis (Scholle, P.A. and P.R. Schluger, Eds.), Society of Economic Paleontologists and Mineralogists Special Publication 26, p.p.159-173. Swanson, R.G., 1981, Sample Examination manual, AAPG Methods in exploration Series, AAPG, Tulsa, Oklahoma, 35p. Tucker, M.E. and Wright, P.V. (1990) ‘Carbonate Sedimentology’, Blackwell Scientific Publications, Oxford, London, Edinburgh, Boston, Melbourne 482p Acknowledgments I would like to thank the following for their kind permission to use images in this linked exercise. The AAPG Calgary Rock and Materials Services Inc. and Hayden Geological Consultants K.M. Bergman Answers Figure 8. Sample 1. Porosity type = intergranular; porosity amount 14% Figure 9. Sample 2. Porosity type = intergranular; porosity amount 10% Figure 10. Sample 3. Porosity type = intergranular; porosity amount 8% Figure 11. Sample 4. Porosity type = interparticle; porosity amount ~26% Figure 12. Sample 5. Porosity type = intergranular (interparticle); porosity amount ~18_ % Figure 13. Sample 6. Porosity type = vuggy (not fabric selective); porosity amount ~32% Figure 14. Sample 7. Porosity type = moldic; porosity amount ~17 % Figure 15. Sample 8. Porosity type = interparticle and intraparticle; porosity amount ~23 % Figure 16. Sample 9. Porosity type = fracture; porosity amount ~8 %