研究领域
My principal scientific interests are in the fields of sedimentary petrology, diagenesis, 地质碳封存,环境和石油地质. 我的话题 目前正在进行的工作包括:
- 诱发地震活动的地质控制
- The relationship between carbonate cementation, fluid flow, microbial activity and 碎屑沉积岩渗透率非均质性研究.
- Controls on fault-zone cementation, fluid flow, the relationship of fault zone 成岩作用到渗透率.
- Reservoir/seal analysis for petroleum systems and proposed carbon sequestration sites
出版物
凯瑟,M.罗斯科斯,D.加拉格尔,S.特鲁希略,n.n.凯瑟,S.霍林沃, R.S., Mozley, P.S.李瑞,R.J.沉积成岩作用与层序地层学研究 the Pennsylvanian Morrowan and Atokan intervals at Farnesworth Unit: Energies, v. 14日,doi.org/10.3390/en14041057.
巴恩斯,H.伊诺霍萨,J.R.斯皮内利,G.A., Mozley, P.S.科宁,D.斯普劳尔,T.G.威尔逊,J.L., 2021,断层带特征检测 and paleo-valley incision using electrical resistivity: Loma Blanca Fault, New Mexico: 地球物理学,v. 86, p. 1-53.
Sproule T.G,斯皮内利,G.A.威尔逊,J.L.马萨诸塞州堡市.D., Mozley, P.S.J . Ciarico.地质学报,2020,断裂带胶结对地下水的影响 野外尺度上的流量:地下水,doi.org/10.1111 / gwat.13062.
皮特里,E.S.布拉德伯里,K.K.库奇奥,L.史密斯,K.埃文斯,J.P.奥尔蒂斯,P.肯纳, K., Person, M., Mozley, P., 2020, Geologic characterization of nonconformities using outcrop and core analogs: 注入诱发地震活动性的水文意义:固体地球,5. 5., p. 1803-1821.
吴,Z.卢曼,A.J.莱因哈特,A.J., Mozley, P.S.杜尔斯,T.A.希斯,J.E.马宗达,B.S., 2020,化学-机械变化 CO诱导2 Injection in Carbonate‐Cemented Sandstone: An Experimental Study at 71 °C and 29 地球物理学报:英文版:固体地球. 125年,doi.org/10.1029/201JB019096.
Yoon H.英格拉姆,M.D.格里格,J.罗萨迪克,B.莱因哈特,A.穆克,W.M.Dewers, T., Mozley, P., 2020, Impact of depositional and diagenetic heterogeneity on multiscale mechanical 美国新墨西哥州和犹他州Mancos页岩的动态. In: Camp, W.K.纽约州菲什曼(Fishman.S., 哈克利,P.C.麦夸克,J.H.S,米利肯,K.L.泰勒,K.G. (Eds.)、泥岩成岩作用: 研究 Perspectives for Shale Hydrocarbon Reservoirs, Seals, Source Rocks, American 石油地质学家协会,回忆录120页. 121-148.
威廉姆斯,R.T., Mozley, P.S.夏普,W.D.L .古德温.B.地质学报,2019,同构造方解石脉U - Th定年 Reveals the Dynamic Nature of Fracture Cementation and Healing in Faults: AGU Geophysical 研究通讯,v. 46. p. 12900 - 12908年,doi.org/10.1029/2019GL085403.
Dewers T.希斯,J.尹浩.英格拉姆,M.格里格,J.莫兹利,P.昆塔纳,E., Karpyn Z., 2019,页岩多物理场孔隙-岩心表征; in维耶尔,S.阿霍-富兰克林,J.凯里,WJ.W., eds.地质碳储存: Subsurface Seals and Caprock Integrity: American Geophysical Union, Geophysical Monograph 238, 45 - 70.
奥尔蒂斯,J.P., Person, M.A.莫兹利,P.S.埃文斯,J.P.比莱克,S.L., 2018,角色 of fault‐zone architectural elements on pore pressure propagation and induced seismicity: 地下水(受压); doi: 10.1111/gwat.12818.
威廉姆斯,R.T.比尔德,B.L.L .古德温.B.夏普,W.D.约翰逊,C.M.莫兹利, P.S., 2018, Radiogenic isotopes record a ‘drop in a bucket’ – A fingerprint of multi-kilometer-scale fluid pathways inferred to drive fault-valve behavior: Jourrnal of Structural Geology (新闻), http://doi.org/10.1016/j.jsg.2018.07.023
威廉姆斯,R.T.L .古德温.B.夏普,W.D.莫兹利,P.S., 2017年,40万年的记录 of earthquake frequency for an intraplate fault: Proceedings of the National Academy 科学,,,v .. 114日,doi: 10.1073 / pnas.1617945114..
威廉姆斯,R.T.L .古德温.B.莫兹利,P.S., 2017,成岩作用对演化的控制作用 of fault-zone architecture and permeability structure: implications for fault-zone 伸展盆地流体输运:GSA公报,5. 129, p. 464-478, doi: 10.1130/B31443.1.
Ampomah W.巴尔奇,R.凯瑟,M.罗斯科斯,D.,振学,D.希斯,J.Dewers, T.莫兹利,P., 2016, CO评价2 一氧化碳储存机制2 enhanced oil recovery sites: Application to Morrow Sandstone reservoir: Energy and 燃料,v. 30, p. 8545-8555, doi: 10.1021.
张,Y.埃德尔,S.佩平,J., Person, M.布罗德海德,R.奥尔蒂斯,J.比莱克,S.Mozley, P.埃文斯,J.探讨油田盐水回注、 crystalline basement permeability, triggered seismicity for the Dagger Draw oil 美国新墨西哥州东南部的油田,使用水文建模:geofluid, v. 16, p. 971-987, doi: 10.1111 /金五环.12199.
Mozley P.S.希斯,J.杜尔斯,T.鲍尔,S., 2016,起源与异质性 of pore sizes in the Mount Simon Sandstone and Eau Claire Formation: Implications 对于多相流体流动:地圈,v. 12, p. 1日到21日,doi: 10.1130 / GES01245.1.
Raduha,年代.巴特勒博士.莫兹利,P., Person, M.埃文斯,J.希斯,J.杜尔斯,T., Stauffer P.盖博,C.Kelkar, S.2016年,潜在的密封旁路和盖层储存 produced by deformation-band-to-opening-mode-fracture transition at the reservoir/caprock 界面:地流体,v. 16, p. 752-768, doi: 10.1111 /金五环.12177.
El-Shawaihdi, M.H., Mozley, P.S.波阿斯,n.n.T.萨卢姆,F.帕夫拉基斯,P.穆夫塔,A.和Triantaphyllou, M., 2016, Stratigraphy of the Neogene Sahabi units in the Sirt Basin, northeast Libya: 非洲地球科学学报,第5期. 118, p. 87-106.
威廉姆斯,R.T.L .古德温.B.莫兹利,P.S.比尔德,B.L.约翰逊,C.M., 2015, Tectonic controls on fault zone flow pathways in the Rio Grande rift, New Mexico, 美国:地质学,doi: 10.1130/G36799.1
Rainoldi,.L.Franchini, M.博福特,D.莫兹利,P.朱西亚诺,A.Cesaretti, N.P.Impiccini, A.庞斯,J., 2015,矿物反应与 hydrocarbon paleo-migration in the Huincul High, Neuquén Basin, Argentina: Geological 美国学会公报, doi: 10.1130/B31201.1.
戴尔,.,约翰,C.M.莫兹利,P.S.,斯莫利,P.C.马格里奇,A.H., 2014,时间胶囊 concretions: unlocking burial diagenetic processes in the Mancos Shale using carbonate 团块同位素:地球与行星科学快报,5. 394, p. 30-37.
El-Shawaihdi, M.H.穆夫塔,A.M.莫兹利,P.S.波阿斯,N.T., 2014,新时代约束 for Neogene sediments of the Sahabi area, Libya (Sirt Basin) using strontium isotope (87Sr/86Sr) geochronology and calcareous nannofossils: Journal of African 地球 Sciences: v. 89, p. 42-49.
张,Y., Person, M.拉普,J.艾里特,K.西莉亚,M.A.盖博,C.W.鲍文,B.埃文斯, J.班迪拉,K.莫兹利,P.S.杜尔斯,T.艾略特,T., 2013,水文地质控制 on induced seismicity in crystalline basement rocks due to fluid injection into basal 水库:地下水. 51, p. 525-538.
希斯J.E.杜尔斯,T.A.麦克弗森,B.J.彼得鲁萨克,R.奇德西,T.C. Jr.莱因哈特, A.J.莫兹利, P.S., 2011, Pore networks in continental and marine mudstones: characteristics and 对密封行为的控制:地圈,v. 7, p. 429-454.
白色,R.斯皮内利,G.A.莫兹利,P.S., N.W. 邓巴,2010,火山的重要性 玻璃蚀变对沉积物稳定性的影响,日本近海:沉积学,5. 58, p. 1138-1154.
Seright R.S.坎贝尔,A.R. 莫兹利,P.S., 2009,部分水解的稳定性 polyacrylamides at elevated temperatures in the absence of divalent cations: Society 石油工程,SPE杂志,121460,p. 1–15. doi:10.2118/121460-MS
卢卡雷利,G.A.莫兹利,P.S.托宾,H.J.霍夫曼,n.n.安德伍德,M.B., 2007, Diagenetic control of sediment strength and pore collapse in sediment approaching 南开海槽俯冲带:美国地质学会通报,5. 119, p. 337-390.
Mozley P.S.伯恩斯,S.J., 2006,全新世滩岩遗址的气候意义 along shorelines of the Red Sea: Discussion: American Association of Petroleum Geologists 公告,v. 90, p. 971-973.
Delude-Roy N.戴维斯,J。.M.莫兹利,P.S.霍尔,J.S., 2006,碳酸盐的影响 cementation on permeability heterogeneity in fluvial aquifers: Sedimentary Geology (关于沉积含水层非均质性的特刊),v .. 184, p. 267-280. doi: 10.1016/j.sedgeo.2005.11.005. 摘要.
Mozley P.S.戴维斯,J。.M., 2005,伸长体的内部结构与生长方式 calcite concretions: Evidence for small-scale, microbially induced, chemical heterogeneity 地下水:美国地质学会通报117(11):1400-1412. doi: 10.1130/B25618.1. 摘要.
本斯J.P.莫兹利,P.S.Dunbar, n.n.W., 2005,粘土在铁运输中的重要性 and sediment reddening: Evidence from reduction features of the Abo Formation, New 墨西哥:沉积研究杂志,5. 75(4), p. 562-571.
大厅,J.S.莫兹利,P.S.戴维斯,J。.M.纽约州的鲁德-罗伊(delde - roy)., 2004,地层环境 and controls on spatial distribution of calcite cementation in Plio-Pleistocene fluvial 中国地质大学学报:自然科学版(英文版). 74(5), p. 643-653.
Mozley P.S., 2002,成岩构造,《365彩票在线过滤》 岩石(Ed. 通过G. 米德尔顿):Kluwer学术出版社,219-225.
古德温,.B.莫兹利,P.S.摩尔,J.C.Haneberg, W.C., 1999,断层与地下 浅层地壳中的流体流动:导论,inW . Haneberg.C.莫兹利,P.S., 摩尔,J.C.和L .古德温.B., eds.、浅层断裂与地下流体流动 地壳, AGU专著113, p. 1-5.
Heynekamp, M.R.L .古德温.B.莫兹利,P.S.Haneberg, W.C., 1999年,控制 fault-zone architecture in poorly lithified sediments, Rio Grande Rift, New Mexico: 断层带渗透率与流体流动的关系,inW . Haneberg.C.Mozley, P.S.摩尔,J.C.和L .古德温.B., eds.,断层与地下流体流动 浅层地壳, AGU专著113, p. 27-49.
Sigda J.M.L .古德温.B.莫兹利,P.S.威尔逊,J.L., 1999,渗透性变化 in small-displacement faults within poorly consolidated sediments: central Rio Grande 裂谷,新墨西哥州,在,Haneberg, W.C.莫兹利,P.S.摩尔,J.C.和L .古德温.B., eds.、浅层地壳断裂与地下流体流动; AGU专著113, p. 51 – 68.
惠特沃思T.M.W . Haneberg.C.莫兹利,P.S.和L .古德温.B., 1999,溶质筛分 石英砂粉上诱导方解石析出 ?? 实验结果及 断层泥膜行为的意义,inW . Haneberg.C.Mozley, P.S.摩尔,J.C.和L .古德温.B., eds.,断层与地下流体流动 浅层地壳, AGU专著113, p. 149-158.
克莱恩J.S.莫兹利,P.S.坎贝尔,A.科尔,R., 1999,空间分布 of carbon and oxygen isotopes in laterally extensive carbonate cemented layers: implications for mode of growth and subsurface identification: Journal of Sedimentary 研究, v. 69, p. 184-201.
Beckner J.莫兹利,P.S., 1998,早期潜水的起源与空间分布 and vadose calcite cements in the Zia Formation, Albuquerque Basin, New Mexico, USA, in, S. Morad ed., Carbonate cements in sandstones: International Association of Sedimentologists 特别出版物第26页. 27-51.
兰伯特,M.R.科尔,r.r.D.莫兹利,P.S., 1997,渗透率非均质性的控制 in the Tocito Sandstone (Upper Cretaceous), northwest New Mexico: in, Anderson, O. Kues, B.S., eds.,新墨西哥地质学会指南,第48届野外会议, 四角地区中生代地质与古生物学,p. 217-228.
Mozley P.S., 1996, The internal structure of carbonate concretions: A critical evaluation 固结生长的同心模式:沉积地质,5. 103, p. 85-91.
Mozley P.S., 戴维斯J.M.D., 1996, Relationship between oriented calcite concretions and permeability correlation structure in an alluvial aquifer, Sierra Ladrones Formation, New Mexico: Journal of 沉积研究,5. A66, p. 11-16.
Mozley P.S.贝克纳,J.惠特沃思,T.M., 1995,方解石的空间分布 cement in the Santa Fe Group, Albuquerque Basin, NM: Implications for groundwater resources: New Mexico Geology, Special Issue: Albuquerque Basin — studies in hydro地质, v. 17, p. 88-93.
Mozley P.S., 古德温,., 1995, Patterns of cementation along a Cenozoic normal fault: A record of paleoflow 方向:地质学,v. 23, p 539-542.
Mozley P.S.伯恩斯,S.J., 1993,海洋氧和碳同位素组成 carbonate concretions: an overview: reply: Journal of Sedimentary Petrology, v. 63, p. 1008.
Mozley P.S.和Wersin, P., 1993,菱铁矿同位素组成指标 沉积环境:回复:地质学,v .. 21, p. 380.
Mozley P.S.伯恩斯,S.J., 1993,海洋氧和碳同位素组成 碳酸盐结核:综述;沉积岩石学杂志,5. 63, p. 73-83.
Mozley P.S.卡罗瑟斯,W., 1992, Kuparuk组菱铁矿地球化学, Alaska: Influence of water/sediment interaction and microbial activity on early pore-water 化学,沉积岩石学报,5. 62, p. 681-692.
Mozley P.S.和Wersin, P., 1992,菱铁矿同位素组成指标 沉积环境:地质学,5. 20, p. 817-820.
Mozley P.S.霍恩尔,K., 1990,凹陷碳酸盐胶结物地球化学 River and Shublik Formations (Triassic/Jurassic), North Slope, Alaska: Implications 地层水地球化学演化:沉积学,5. 37, p. 817-836.
Mozley P.S., 1989,固结菱铁矿的复杂成分分区:意义 地球化学研究:沉积岩石学报,5. 59, p. 815-818.
Mozley P.S., 1989, Relation between depositional environment and the elemental composition 早期成岩菱铁矿:地质学,5. 17, p. 704- 706.