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Paleobiology Practicum I

Code: 44793 ECTS Credits: 12
2025/2026
Degree Type Year
Paleobiology and Fossil Record OB 1

Contact

Name:
Carles Martin Closas
Email:
carles.martin@uab.cat

Teachers

Judit Marigo Cortes
Zain Belaústegui Barahona
Xavier Delclos Martinez
Sara Tomas Lafaja
Ramon Mercedes Martin
Angel Hernandez Lujan
Josep Sanjuan Girbau
(External) Carles Martín Closas (cmartinclosas@ub.edu)

Teaching groups languages

You can view this information at the end of this document.


Prerequisites

The same as those from the master.


Objectives and Contextualisation

Referred to knowledges.

To recognize the main groups of plant fossils, invertebrates, ichnofossils and microfossils in rock samples, in the field or by observation under the microscope.

To characterize paleoenvironmental changes from the taphonomic and paleoecological study of microfossils, plant fossils, ichnofossils and invertebrates in stratigraphic successions.

To define the chronostratigraphy of sedimentary successions from the study of microfossils, plants and invertebrates.

 

Referred to skills

To relate different perspectives of a fossil in section to integrate them into a three-dimensional scheme, both from thin sections or from macroscopic sections.

To represent in two- and three-dimensional diagrams the reconstruction of a paleoenvironment that integrates information from the depositional environment (lithofacies) with the taphonomic and paleoecological information of various groups of fossils in real case studies.


Learning Outcomes

  1. CA09 (Competence) Plan and develop a palaeontology study, and be able to solve any problems that arise.
  2. CA10 (Competence) Clearly and unequivocally convey a case study in palaeobiology, integrating previous knowledge, defining the problem to be solved, detailing the methodology used and presenting the results obtained.
  3. CA11 (Competence) Integrate partial results of a palaeobiological study into a team effort, critically analysing one's own contribution and that of the other members of the group.
  4. KA08 (Knowledge) Recognise the main groups of fossilised plants, invertebrates, ichnofossils and microfossils de visu in the field and through a microscope or binocular magnifying glass in the laboratory.
  5. KA09 (Knowledge) Characterise palaeoenvironmental changes from the taphonomic and palaeoecological study of microfossils, plant fossils, ichnofossils and invertebrates in stratigraphic successions.
  6. KA10 (Knowledge) Describe the chronostratigraphic characterisation of sedimentary successions from the study of microfossils, plants and invertebrates.
  7. SA10 (Skill) Relate different perspectives of a fossil cross section for integration in a three-dimensional view, both in thin film microscopic cross sections and in macroscopic cross sections.
  8. SA11 (Skill) Represent in two and three-dimensional diagrams the reconstruction of a palaeoenvironment that integrates information from the depositional environment (lithofacies) with palaeoecological information from various groups of fossils from real case studies.

Content

  1.        Practicum in Fundaments of Paleobiology and Methods and Techniques in Paleobiology

        Fieldwork. Fundaments of Paleobiology by visiting several museum exhibitions and palaeontological sites in the Cretaceous of the Pyrenees (Coll de Nargó, Tremp and Ager subbasins).

  

2.              Practicum in Marine Paleobiology

2.1. Practicum in taphonomy, paleoecology and ichnology:

a)              Laboratory. Observation and analysis of taphofacies, ichnofossils and marine ichnofacies

b)              Fieldwork. Study of taphonomy, paleoecology and ichnology of marine invertebrates and vertebrates in a Miocene succession of the Camp de Tarragona Basin.

c)              Fieldwork. Paleoecology taphonomy and ichnology of marine invertebrates and microfossils in a sequence of Eocene platforms of the Ebro basin (in combination with the fieldwork in Micropaleontology and Biostratigraphy).

 

2.2. Practicum in Micropaleontology

a)              Laboratory. Observation and identification of microfossils of cyanobacteria, red algae, green algae, nannoplankton, foraminifera and microfossils of marine invertebrates.

b)              Fieldwork. Study of a succession of a carbonate platform rich in coralline red algae in the Miocene of the Penedès Basin and of a middle Eocene succession rich in macroforaminifera.

c)              Fieldwork. Taphonomy paleoecology and ichnology of marine invertebrates and microfossils in a succession of the Eocene of the Ebro basin (in combination with the fieldwork in Taphonomy, paleoecology and ichnology).

 

2.3. Practicum in Marine Paleoenvironmental Modelling and Marine Invertebrates

a)              Laboratory. Observation and identification of the main groups of rock-building marine invertebrates.

b)              Fieldwork. Study of carbonate platforms in the Mesozoic of the Catalan Coastal Chain.

 

 3.     Practicum in Continental Paleobiology (Plants and invertebrates)

3.1. Practicum in Plant Evolution:

a)              Laboratory. Observation and identification of macro and microfossils of Paleozoic, Mesozoic and Cenozoic plants. Evolutionary implications.

b)              Fieldwork. Study of Miocene plants from the lacustrine La Cerdanya Basin (Pyrenees): applications in paleoenvironmental reconstruction (in combination with the fieldwork in Continental Invertebrate Paleontology).

 

3.2. Practicum in Continental Invertebrate Paleontology

a)              Laboratory. Observation and identification of fossils of continental invertebrates, mainly arthropods.

b)              Fieldwork. Study of invertebrates and plant-artropod interactions in the Miocene lacustrine basin of the La Cerdanya basin: applications in paleoenvironmental reconstruction (in combination with the fieldwork in Plant Evolution).

 


Activities and Methodology

Title Hours ECTS Learning Outcomes
Type: Directed      
Lab practicum 90 3.6 CA10, KA08, KA09, KA10, SA10, CA10
Type: Supervised      
Fieldwork practicum 76 3.04 CA09, CA10, CA11, KA08, KA09, KA10, SA10, SA11, CA09

Laboratory practicum. It consists of sessions of usually two hours in the microscopy classroom, during which students observe fossils, draw sketches and photograph the structures explained in theory and do exercises based on these fossils. The practicum aims enhancing observation, description, graphic illustration, and synthesis skills. This block involves hours of in-person work, hours of supervised work and hours of autonomous work.

Fieldwork practicum. This block consists of five field trips, three of which will be of one day duration, and one will last for two days. They will allow contextualizing in the nature the fossils studied in theory and observed in the laboratory. Field work includes studying examples of most of the fossil groups observed in the laboratory practicum. The training activities consist of searching and recognizing fossils in a stratigraphic context and extracting taphonomic, paleoenvironmental and biostratigraphic information. The result is reflected in reports or written exercises that are elaborated as supervised work. In fieldwork, group-work skills are also exercised. The block involves in-person hours and supervised work.

The use of Artificial Intelligence (AI) technologies is allowed exclusively for support tasks, such as bibliographic or information search, text correction or language translations. The student will clearly identify which parts have been generated with the help of this technology and specify the tools used. Lack of transparency in the use of AI in any activity will be considered a lack of academic honesty and may result in a partial or total penalty in the grades of the assessable activities.

Annotation: Within the schedule set by the centre or degree programme, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.


Assessment

Continous Assessment Activities

Title Weighting Hours ECTS Learning Outcomes
Attendance and participation 10% 90 3.6 CA10, CA11
Exercises based on laboratory practicum 20% 30 1.2 KA08, KA09, KA10
Field work reports 30% 10 0.4 CA09, CA10, CA11, KA08, KA09, KA10, SA10, SA11
Final exam 40% 4 0.16 CA10, KA08, KA09, KA10, SA10


Evaluation will include following items:

40% Final exam

20% Exercises based on laboratory practicum

30% Field work reports

10% Classroom attendance and participation

 


Bibliography

Behrensmeyer, A.K. Taphonomy. In: Alderton, D. and Elias, S.A. (Eds.) Encyclopedia of Geology (2nd Edition), Vol. 3 History of Life, Academic Press, Elsevier, 2021.

Benton, M.J., and Harper, D.A.T. Introduction to Paleobiology and the Fossil Record. Wiley-Blackwell. 2010.

Buatois, L.A. and Mángano, M.G. Ichnology. Organism-substrate interactions in space and time. , New York, 358 pp Cambridge University Press. 2011.

Grimaldi, D., and Engel, M.S. Evolution of the Insects, New York, 755 pp., Cambridge University Press. 2005.

Mangano, M.G. and Buatois, L.A. (Eds). The trace-fossil record of major evolutionary events. Vol. 1: Precambrian and Paleozoic, Topics in Geobiology 39, Springer, 2016.

Mangano, M.G. and Buatois, L.A. (Eds.). The trace-fossil record of major evolutionary events. Vol. 2: Mesozoic and Cenozoic. Topics in Geobiology 40, Springer, 2016.

Martinetto, E., Tschopp, E., and Gastaldo, R.A. Nature Through Time. Springer Nature, 2020.

Mc Elwain, J. Paleobotany and Global Change: Important Lessons for Species to Biomes from Vegetation Responses to Past Global Change, Annual Reviews Plant Biology, 69:761-787, 2018

McGowran, B. Biostratigraphy. Microfossils and Geological time, Cambridge University Press, 2005.

Molina, E. Micropaleontología (3ª Edición). Prensas de la Universidad de Zaragoza, 2017.

Saraswati, P. Microforaminiferal Paleontology for understanding Earth’s history, Elsevier, 2021.

Sreepat J. Fundamentals of Invertebrate Paleontology. Microfossils, Springer, 2020.

Taylor, T., Taylor, E. and Krings, M. Paleobotany: The Biology and Evolution of Fossil Plants. Academic Press, 2nd Edition, 2009.

Willis, K.J. and McElwain, J.C. The Evolution of Plants, Oxford, 2002.


Software

Basic software: Office (Word, Excel, Power Point) or similar

Graphic dessign software: Adobe Illustrator, Corel Draw, Inkskape,...


Groups and Languages

Please note that this information is provisional until 30 November 2025. You can check it through this link. To consult the language you will need to enter the CODE of the subject.

Name Group Language Semester Turn
(PAULm) Classroom practices (master) 1 Spanish second semester morning-mixed
(PCAMm) Field practices (master) 1 Spanish second semester morning-mixed