Difference between revisions of "Limnology"

From EEBedia
Jump to: navigation, search
Line 18: Line 18:
Office hours: by appointment<br><br>
Office hours: by appointment<br><br>
'''[mailto:jonathan.velotta@uconn.edu ]''' Jon Velotta (Teaching Assistant)<br>
'''[mailto:jonathan.velotta@uconn.edu Jon Velotta]'''(Teaching Assistant)<br>
Email: jonathan.velottak@uconn.edu<br>
Email: jonathan.velottak@uconn.edu<br>
Office: Biology/Pharmacy 210<br>
Office: Biology/Pharmacy 210<br>

Revision as of 19:33, 4 September 2013


EEB 3247 Limnology
Fall 2013

Lecture Meeting Time: Tuesdays and Thursdays, 9:30 - 10:45 in TLS 179
Lab Meeting Time: Thursdays 12:00 - 4:00 in TLS 179
Textbooks: Dodson S.I., 2005. Introduction to Limnology 1st Edition. McGraw-Hill.
Giller P.S. and B. Malmqvist, 2008. The Biology of Streams and Rivers. Oxford University Press.


Dr. Mark Urban
Email: mark.urban@uconn.edu
Office: Biology/Pharmacy 200A
Phone: (860) 486-6113
Office hours: by appointment

Jon Velotta(Teaching Assistant)
Email: jonathan.velottak@uconn.edu
Office: Biology/Pharmacy 210
Phone: (860) 486-4694
Office hours: by appointment

Course Procedures

Photo by J.M. Rack
Photo by A. Shepack
Photo by J.M. Rack

Pdficon small.gifLimnology Syllabus 2013

Overview of Course:
The main objective of the course is to introduce you to the dominant physical, chemical, and biological mechanisms determining the ecology of inland waters. A secondary objective is to teach field sampling and research techniques pertinent to aquatic research. Classes will integrate lectures on core concepts with field and laboratory experiences In addition, an independent research project would be used to integrate concepts and also allow students to design, implement, analyze and communicate their own scientific research.
Limnology can be taught with various foci. I teach the course as an upper level ecology class focused on aquatic systems. If you have not taken ecology or evolution, you may need to do some supplementary work to catch up. See me within the first week to discuss this possibility.

  • Field and lab exercises are mandatory. Field trips cannot be made up. If for some reason you think that you will be unable to make any field trips, consult with me in advance.
    • We will leave for field trips at exactly 12 pm. Please arrive at the lab on time.
      • This is a field course. Ecologists go out regardless of the weather, and so will we. You are responsible for bringing appropriate rain or cold weather gear.

The two texts for the course are listed below. Both can be purchased from online sources such as Amazon.com or at the UConn Co-op.
Dodson, Stanley. 2005. Introduction to Limnology. McGraw Hill. ISBN: 007287935-3
Giller, Paul & Bjorn Malmqvist. 2008. The Biology of Streams and Rivers. Oxford University Press. ISBN: 0198549772

Class requirements and grading:
You must attend each class. Your grade will be based on two exams, completion of lab reports, a group research project and participation in field and lab exercises:
Midterm and Final Exams: 50
Lab Reports (2): 20
Research Project: 20
Participation/Quizzes: 10
TOTAL: 100 pts

Notes on class requirements:

  • The two exams will cover material covered in both lectures and labs. The final exam will be cumulative. Also expect one or more pop quizzes on reading materials.
  • I require lab reports which provide succinct descriptions and analyses of data collected during lab and field exercises.
  • You will also have time to perform a field or laboratory research project, of your design but requiring my permission. These projects can be performed individually or in small groups (3-maximum). Results will be presented by all individuals during the last lab meeting.
  • Participation means showing up, completing all assigned readings on time, and actively taking part in lectures and labs.
  • All students must adhere to all safety intructions at all times, especially while on water bodies, or you will be prevented from further participation.


Photo by J.M. Rack
Photo by J.M. Rack
Photo by A. Shepack
Photo by A. Shepack
Photo by J.M. Rack
Photo by J.M. Rack

Lateness policy
Assignments will lose 10 percentage points for every 24-hour period that they are late. For example, an assignment that would have received a 100% had it been handed in on time will receive a 60% (an F) if it is handed in 4 days late. Only a note from a physician or the Dean sent to me in advance of the due date will be accepted as a valid excuse.

Missed field trips/labs
Missed field trips or labs cannot be made up and will result in lost points unless the absence has been approved by me at least one week in advance or with a note from the physician or the Dean sent to me in advance of the field trip or lab. If you must miss a field trip or lab because of a legitimate school-sponsored activity or religious observance, then you must seek my permission at least one week in advance. In all approved cases, an equivalent activity will be assigned.

Plagiarism means using someone else’s statement word-for-word without quotation marks (even if you cite it) or using someone else’s ideas, even if you have paraphrased them, without proper attribution of credit through a citation. The penalty for plagiarism on your research project is a zero. Do not plagiarize – I run all of your written work through software that detects plagiarism. All plagiarism and cheating will be dealt with in the severest manner possible, meaning a zero on affected assignments and referral to the Dean’s office.

Lecture and Lab Schedule & Materials

Date Type Lecture or Lab Topic Reading Supplemental Materials
Aug 30 Lecture 1 Syllabus; Introduction to limnology D, Ch. 1 :Pdficon small.gifLecture 1_Introduction.pdf
Sept 1 Lecture 2 Ecology and evolution; Lab notebooks :Pdficon small.gifLecture 2_Ecology and evolution.pdf
Tadpole video
Sept 1 Lab 1 Phys./Chem. Sampling, Dunham Pond
Sept 6 Lecture 3 Lake formation; create Kettle pond D, Ch. 11 :Pdficon small.gifLecture 3_Origins of Lakes.pdf
Glacier video
Sept 8 Lecture 4 Thorson; lake classification, link-node  :Pdficon small.gifThorson handout
 :Pdficon small.gifLecture 4_Thorson.pdf
Sept 8 Lab 2 Zooplankton Sampling, Dunham Pond
Sept 13 Lecture 5 Hydrology and water properties D, Ch. 2  :Pdficon small.gifLecture 5_Hydrology and Water Properties.pdf
Sept 15 Lecture 6 Temperature gradients  :Pdficon small.gifLecture 6_Water and Gradients.pdf
Sept 15 Lab 3 Zooplankton ID
Sept 20 Lecture 7 Light and oxygen D, Ch. 10  :Pdficon small.gifLecture 7_Light and Oxygen.pdf
Sept 22 Lecture 8 Chemical limnology; Proposals D, Ch. 3-5  :Pdficon small.gifLecture 8_Chemical Limnology.pdf
 :Pdficon small.gifProposals.pdf
Sept 22 Lab 4 Swan Lake sampling
Sept 27 Lecture 9 Populations in Lakes D, Ch. 6 Proposals Due :Pdficon small.gifLecture 9 - Populations in lakes.pdf
Sept 29 Lecture 10 Species Interactions in Lakes D, Ch. 7  :Pdficon small.gifLecture 10 - Species interactions in lakes.pdf
Sept 29 Lab 5 Zooplankton ID
Oct 4 Lecture 11 Lake Communities D, Ch. 8 Pdficon small.gifLecture 11 - Lake Communities.pdf
Oct 6 Lecture 12 Lake ecosystems D, Ch. 9
Oct 6 Lab 6 Fenton Sampling Lake Lab Due
Oct 11 Review Session
Oct 13 EXAM --- Midterm Exam
Oct 13 Lab Time allotted for student independent projects
Oct 18 Lecture 13 Lake ecosystems  :Pdficon small.gifGene Likens Lecture: Lake Ecosystems (Dr. Likens asks that you do not use any of these slides without appropriate attribution. Thanks.)
Oct 20 Lecture 14 Wetland habitats: permanence transition Pdficon small.gifLecture 14 - Wetland habitats.pdf
Oct 20 Lab 7 Pond Invertebrate ID
Oct 25 Lecture 15 *Catch up*
Oct 27 Lecture 16 Behavior in aquatic systems  :Pdficon small.gif Jessie's Lecture: Behavior in Aquatic Systems
Oct 27 Lab 8 Stream mapping
Nov 1 Lecture 17 Stream Environments GM, Ch. 1 Pdficon small.gifLecture 17 - Stream environments.pdf
Nov 3 Lecture 18 Key Factors in Streams I GM, Ch. 2 Pdficon small.gifLecture 18 - Key factors in streams I.pdf
Nov 3 Lab 9 Stream Biota Sampling
Nov 8 Lecture 19 Key Factors in Streams II GM, Ch. 3, 5 Pdficon small.gifLecture 19 - Key factors in streams II.pdf
Nov 10 Lecture 20 Autotrophy/Heterotrophy Pdficon small.gifLecture 20 - Autotrophy and Heterotrophy in Streams.pdf
Nov 10 Lab 10 Stream ID
Nov 15 Lecture 21 Stream Communities 1 GM, Ch. 6 Pdficon small.gifLecture 22a - Stream Communities 1.pdf
Nov 17 Lecture 22 Stream Communities 2 GM, Ch. 4, 7 Pdficon small.gifLecture 22b - Stream Communities 2.pdf
Nov 17 Lab 11 Revisit lake chemistry Stream Lab Due
Nov 29 Lecture 23 Gene Likens: Streams GM, Ch. 8,9  :Pdficon small.gifGene Likens Lecture: Streams (Dr. Likens asks that you do not use any of these slides without appropriate attribution. Thanks.)
Supplemental papers:
Pdficon small.gif Lowe et al. 2006
Pdficon small.gif Lowe et al. 2008
Pdficon small.gif Macneale et al. 2005
Pdficon small.gif Macneale, Peckarsky & Likens 2004
Dec 1 Lecture 24 Conservation challenges I Pdficon small.gifLecture 24 - Conservation Challenges 1
Dec 6 Lecture 25 Conservation challenges II
Dec 8 Lecture 26 TBA; Review
Dec 8 Lab Project Presentations Project Papers Due
Dec 13 FINAL EXAM, 8-10am

Additional Resources

American Society of Limnology and Oceanography
Association of State Wetland Managers
International Society of Limnology
North American Benthological Society
North American Lake Management Society
North American Native Fishes Association
Society of Wetland Scientists
Water Web Consortium