University of Michigan Department of Geological Sciences Program in the Environment Provost's Office Structure and Tectonics-PaSTeL EarthStructure 2ed, supplements Inquiries in Global Change (pw protected) Yahoo, Picture Galleries, Tricks Wolverine Access, CTools, LectureTools Research, Facilities, Selected Publications, All Publications Opportunities for graduate students, click here Course info: Global Change Curriculum (GC1/GC2/Minor), PPT04, JGE paper How Earth Works: GS205, GS207, GS265 Environmental Geology: Env/GS 284 Structural Geology: GS351/451;Tectonophysics: GS525 Other Info: LectureTools - Interactive classroom environment GeoPad - TabletPC field environment (see also Teaching) GeoPocket - Classroom and field IT enhancements; PPT06 Dynamic map to campus, local weather and traffic about Ann Arbor, Kids' corner, about the Netherlands Images from EarthStructure (2nd ed)

Ben A. van der Pluijm (say what?) Bruce R Clark Collegiate Professor of Geology Professor of the Environment Director of the Global Change Program  University of Michigan Department of Geological Sciences 4534b C.C. Little Building 1100 North University Ave Ann Arbor, MI 48109-1005, U.S.A. Office phone: 734.763.0373 Department phone: 734.764.1435 Fax: 734.763.4690 Senior Counselor to the Provost Accreditation 2010 University of Michigan, Office of the Provost 4012 Fleming Administration Building Ann Arbor, MI 48109-1340, U.S.A. Phone: 734.647.8788; Fax: 734.764.3988 Email: vdpluijm@umich.edu

Recent Research Topics: Presentation on "Tectonics and collisional architecture of the Grenville margins of Laurentia and Amazonia" (PDF) Presentation on "Transformations in (strike-slip) faults" (PDF) Presentation on "Fault rock dating" (PDF) Teaching Topics: U-M President's Multidisciplinary Learning and Team Teaching Initiative Presentation on "Interdisciplinarity before Disciplinarity" (PDF) Presentation on "LectureTools - Promoting student engagement in large introductory classes through laptop-based, interactive instruction" (PDF)

SAFOD video, click here.

Research and Teaching Interests

Structural Geology, Tectonics, Tectonophysics

field areas: the northern Appalachians, the USA continental interior, southern Ontario and western New York’s Grenville, western Brazil’s Grenville, northern Michigan’s Penokean, northern Spain’s Cantabria, US-Canadian Rockies, San Andreas (CA) and Alpine (NZ) faults.
topical areas: brittle and ductile faults, deep-crustal architecture, fault gouge and pseudotachylyte, intraplate stresses, oroclines, clay microstructures and textures, magnetic anisotropy, X-ray goniometry, paleomagnetism, geochronology, physical oceanography

Teaching

Interdisciplinary undergraduate teaching (Global Change Program, MLTT) IT-supported classroom education (LectureTools^TM, GeoPocket), IT-supported field-based education (GeoPad^TM).

Current Research Projects 

A variety of research projects are carried out in the S&T Group, which consists of ~6 students (PhD and MSc), several faculty, PDFs and research associates. For a general listing of faculty, graduate students, research associates, associated faculty and other information go to the PaSTeL page. Other links to structure and tectonics activities at the University of Michigan is through the TSG page.
Brief descriptions of some of my current research projects are given below.

Fault Gouge
An integrated study on the formation and mechanical role of clay-bearing fault gouge is carried out in collaboration with mineralogist Laurence Warr, Ar geochronologist Chris Hall and stable isotope geochemist KC Lohmann.  We are studying mineralogic reactions and transformation, deformation mechanisms, deformation textures and dating of ancient clay gouges (currently faults of the Canadian and US Rockies, normal faults in SW US, thrusts of the Pyrenees and Rwenzori flank uplifts) and San Andreas fault drilling core (SAFOD).

Pseudotachylytes
Textural, chemical, geochronologic and thermo-mechanical modeling studies of pseudotachylyte, formed by friction melting, in collaboration with Univ. Strasbourg (France) mineralogist Laurence Warr and UM seismologist Larry Ruff.  We are currently focusing on exhumed samples from New Zealand's Alpine Fault.

Tertiary Paleoclimate
In collaboration with oceanographers Ted Moore and David Rea and rock magnetist Josep Pares we are using the magnetic anisotropy signature of ocean drilling core to determine depositional environments and paleocurrents in various Tertiary sequences, as a proxy of ancient climate change.  Currently our work focuses on the Southern Ocean.

Crustal Architecture
We work on aspects of the evolution of the Proterozoic Grenville and Penokean orogens in southern Ontario and northern New York, Rondônia (Brazil) and Michigan’s Upper Peninsula.  Our interests concentrate on ductile shear zones (mylonites) and D-P-T-t histories.  Research topics have included, shear zone evolution, crystallographic fabrics, fluids in shear zones (using C-O isotopes and electron microbeam techniques), and geochronology.  These studies are carried out in collaboration with petrologist Eric Essene, Ar geochronologist Chris Hall and U/Pb geochronologist Klaus Mezger at Univ. Munster (Germany).  Generally, these studies involve topical field mapping and a variety of lab work.

Plate Stresses
Calcite twinning in coarse-grained limestones and rock magnetic methods are used to determine the Paleozoic stress and strain patterns in the frontal portion of the Appalachians and the cratonic cover sequence of North America.  In particular we examine the process of oroclinal bending in the Appalachians, North American Rockies, and Cantabrian Mountains of Spain, in collaboration with paleomagnetist Rob Van der Voo.

Other Studies
Processes associated with the formation of ductile and brittle shear zones and foliations are studied using optical microscopy, electron microbeam (microprobe, SEM, AEM/STEM) and rock magnetic techniques.  Optical microscopy is used to determine crystallographic preferred fabrics, whereas EM studies focus on defect analysis and microchemical variation in deformed rocks.  Aspects of this work are carried out in collaboration with other faculty and researchers.  Modern rock magnetic techniques, some of which we recently developed, are used in conjunction with traditional structural analysis to quantify depositional and deformation fabrics.  In addition, we are maintaining a high-resolution X-ray texture goniometer for clay fabric analysis.

Facilities

The Department of Geological Sciences is  well equipped for modern structural/tectonic studies.  This distributed structural geology laboratory cluster consists of a workroom and lounge (4534 CCL) with several research optical microscopes, including a Leitz Ortholux with photographic attachment, a dedicated Zeiss U-stage microscope with computer, facilities for real-time, microscope-based deformation experiments of analogs, and map analysis. In addition to a group of networked computers with peripherals, the laboratories host a TabletPC-based field computing (GeoPad) and classroom handheld (GeoPocket) facility (4505F CCL). A texture goniometer, using an Enraf-Nonius single-crystal diffractometer, is located in the X-ray Laboratory (2005 CCL), which also houses a Scintag diffractometer for powder samples, and several magnetic fabric analysis devices (including a Kappabridge and SI2 bridges) are housed in the Paleomagnetics Laboratory (4538 CCL).  The EMAL houses a Philips 120 kV STEM, a Hitachi SEM and two Cameca microprobes for micro-structural and micro-chemical analysis.  Higher-voltage electron microscopes are located in EMAL-North Campus.  A dedicated sampling laboratory is equipped with separation and preparation equipment (5553 CCL).  Other departmental facilities offer stable and radiogenic isotope analysis, ICP and other geochemical facilities.  Extensive technical support is available for all these facilities.

A Selection of Recent Publications, Current and Past Projects

A complete list of hotlinked publications can be found on my publications page. A selection of some work is below.