Course Syllabus: BIOL 190Q – Climate Change and Species Extinction

Synopsis:

This seminar will explore the scientific basis for how climate change will contribute to species extinctions in the coming century. Currently, there is a growing appreciation of the very real danger that climate change poses to species persistence, particularly in the ways that climate change is interacting with other human-caused changes to the environment, such as land-use change. Because this topic has only recently acquired broad public and scientific attention, little work has been done on this topic to date, i.e. this topic isn’t covered in any textbook. Consequently the seminar will focus on three distinct topics: 1) understanding the ecological, evolutionary and biogeographical research that informs our understanding of how climate change will contribute to species extinction, 2) focusing on the limited amount of research in the primary literature that directly addresses this issue, 3) mapping out and conducting original research that can advance our understanding of this issue. The course will have a significant reading load, with selected readings from a text book on biogeography, as well as many readings from the primary literature; diligence in studying this material will be evaluated with reading assignments and quizzes. The course will also require a significant investment of time towards original research. Together we will begin a collaborative research project (analyzing an online database of species extinction and endangerment) that focuses on species extinction. The research project will provide an opportunity to contribute to many of the components of original scientific investigation, which includes project planning, background reading of appropriate scientific literature, data collection, data analysis, scientific writing, and manuscript submission for publication. Finally, each student will also be required to complete a term paper and to give a presentation on their plans for their term paper in class.

Objectives:

·  To understand how climate change will contribute to future species extinctions

·  To experience the scientific process of discovery by performing original research

Lecture: 9:00-9:50 MWF, J. Walter Wilson Hall, Room 301

Office Hours: By appointment, Walter Hall, Room 302

Instructor: Dov F. Sax, , 401-863-9676

Required Text: Biogeography, Third Edition, by Lomolino, Riddle and Brown

Grading Policy:

1. Contribution to class discussions (25%)

2. Quizzes and assignments (25%)

3. Contribution to the group research project (25%)

4. Term paper (25%)


Field Trip:

The field trip is a mandatory component of the course. It presents an opportunity for students to observe organisms in the natural environment, so as to better appreciate how climate, soil, species interactions and other factors limit the geographic distribution of species. We will visit Cape Cod, examining the distribution of intertidal, estuarine and upland species. We will pay special attention to species that have their geographic range limit in or near Cape Cod. The trip is scheduled to depart campus at 8AM on Saturday, February 28 and to return at 8PM on Sunday, March 1; the trip may need to be rescheduled if inclement weather is expected.

Term Paper:

Studies of how climate change will impact species and ecosystems are still few and far between. Your term paper assignment will be to design a research proposal to address some aspect of this broad topic. The proposal must be for work that you could conduct (either individually or as part of a larger team). You must provide preliminary data to support your proposal; consequently you must have at least two ‘illustrations’, which should be either figures or tables. You must also include a references cited section that includes at least 20 referenced journal articles relevant to your proposed work, which you will cite in the term paper. Finally, the text of the proposal should be five pages in length (double spaced). The term paper is due on the scheduled final exam date for the course.

SCHEDULE OF READINGS, DISCUSSION AND WORK:

Jan. 21 – Course Introduction

Jan. 23 – Assisted Migration: Sax et al. 2007, Hoegh-Guldberg et al. 2008

Jan. 26 – IPCC Synthesis Summary Report 2007

Jan. 28 – Chapter 3 – Biogeography: The Physical Setting

Jan. 30 – Chapter 4 – Biogeography: Distribution of Single Species

Feb. 2 – Chapter 5 – Biogeography: Geography of Communities

Feb. 4 – Chapter 6 – Biogeography: Dispersal and Immigration

Feb. 6 – Chapter 9 – Biogeography: Glaciation and Biog. Dynamics of the Pleistocene

Feb. 9 – Chapter 16 (pages 643-678) –Geography of Extinctions Part I

Feb. 11 – Chapter 16 (pages 678-708) –Geography of Extinctions Part II

Feb. 13 – Chapter 17 – Biogeography: Conservation Biogeography

Feb. 16 – No Class, University Holiday

Feb. 18 – Evolution and ecological fitting: Gould and Lewontin 1979, Janzen and Martin 1981, Janzen 1985

Feb. 20 – The parable of Green Mountain and Novel Ecosystems: Gray 2004, Wilkinson 2004a, Wilkinson 2004b, Hobbs et al. 2009

Feb. 23 – Climate Change in New England I (physical): NERA Chapters 2 and 4

Feb. 25 – Climate Change in New England II (biotic implications): NERA Chapter 5

Feb. 27 – Vegetation, land use history and conservation in Cape Cod: Motzkin et al. 2002, Eberhardt et al. 2003

Course Field Trip (Feb. 28 & Mar. 1)

Mar. 2 – Climate change and species extinction: Thomas et al. 2004 and replies to Thomas et al., Schipper et al. 2008

Mar. 4 – Climate change and species extinction: Thuiller et al. 2005, Skelly et al. 2007

Mar. 6 – Invasion and extinction: Sax and Gaines 2008, Walther et al. 2005, NY Times article

Mar. 9 – Research project – initial discussion

Mar. 11 – Pitfalls in analysis of IUCN data: Gurevitch and Padilla 2004 and replies to Gurevitch and Padilla, Smith et al. 2007

Mar. 13 – Research project – assigning initial tasks (IUCN data processing)

Mar. 16 – Research project – identifying methodological problems

Mar. 18 – Research project – identifying our list of species

Mar. 20 – Research project – assigning additional tasks (literature search)

Mar. 23 – No Class, Spring Break

Mar. 25 – No Class, Spring Break

Mar. 27 – No Class, Spring Break

Mar. 30 – Ecological Fitting - Janzen

Apr. 1 – Research project – identifying additional methodological problems

Apr. 3 – Research project – compiling data to compliment IUCN data

Apr. 6 – Research project – data analysis

Apr. 8 – Research project – constructing figures and tables

Apr. 10 – Research project – structuring a scientific manuscript

Apr. 13 – Research project – alternative methods sections (selecting the right details)

Apr. 15 – Research project – alternative discussion sections (what to report)

Apr. 17 – Research project – alternative conclusions (what’s supportable)

Apr. 20 – Research project - alternative introductions (honing the “sales pitch”)

Apr. 22 – Research project – letter to the editor

Apr. 24 – Additional projects – discussing the possibilities

Apr. 27 – Research proposal presentations

Apr. 29 – Research proposal presentations

May 1 – Research proposal presentations

May 4 – No Class - Reading Period

May 14 – Term Paper due

READING LIST:

Text Book:

Lomolino et al. 2006. Biogeography, third edition. Sinauer Press, Sunderland, MA.

IPCC Report:

Available at http://www.ipcc.ch/

Journal Articles:

Gould, S.J. and Lewontin, R.C. 1979. The Spandrels of San Marco and the Panglossian Paradigm: A Critique Of The Adaptationist Programme. Proceedings Of The Royal Society of London, Series B, 205: 581-598.

Gray, A. 2004. The parable of Green Mountain: massaging the message. Journal of Biogeography 31: 1549-1550.

Gurevitch, J. and Padilla, D.K. Are invasive species a major cause of extinction? 2004. Trends in Ecology and Evolution 19:470-474.

Hoegh-Guldberg, O. et al. 2008. Assisted colonization and rapid climate change. Science 321:345-346.

Janzen, D. 1985. On ecological fitting. Oikos 45: 308-310.

Janzen, D.H. and Martin, P.S. 1981. Neotropical anachronisms: The fruits the Gomphotheres ate. Science 215: 19-27.

Replies and correspondence in Nature (2004) to Thomas et al. article; Volumes 427:145-148 & 430:141.

Replies and correspondence in Trends in Ecology and Evolution (2004) to Gurevitch and Padilla article; Volumes 19:619 & 20:110.

Sax, D.F. et al. 2007. Grant proposal to Cedar Tree Foundation.

Sax, D.F. and Gaines, S.D. 2008. Species invasions and extinction: The future of native biodiversity on islands.

Schipper, J. et al., The Status of the World's Land and Marine Mammals: Diversity, Threat, and Knowledge. Science 322: 225-230.

Skelly, D.K. et al. 2007. Evolutionary responses to climate change. Conservation Biology 21:1353-1355.

Smith, K.F., Sax, D.F. and Lafferty, K.D. 2006. Evidence for the role of infectious disease in species extinction and endangerment. Conservation Biology 20: 1349-1357.

Thomas, C.D. et al. 2004. Extinction risk from climate change. Nature 427: 145-148.

Walther, G.R. et al. 2005. Trends in the upward shift of alpine plants. Journal of Vegetation Science 16: 541-548.

Wilkinson, D.M. 2004a. The parable of Green Mountain: Ascension Island, ecosystem construction and ecological fitting. Journal of Biogeography 31: 1-4.

Wilkinson, D.M. 2004b. Do we need a process-based approach to nature conservation? Continuing the parable of Green Mountain Ascension Island. Journal of Biogeography 31: 2041-2042.

Amendments to the syllabus:

Please note that this course syllabus is a general plan for the course; deviations announced to the class by the instructor may be necessary.