Tags: interspecific interactions

Resources (1-9 of 9)

  1. Authentic Ecological Inquiries Using BearCam Archives

    24 Aug 2021 | Teaching Materials | Contributor(s):

    By X. Ben Wu1, Stephanie Knight2, Jane F. Schielack1, Denise Robledo3, Xavier A. Jaime1, Cheryl Ann Peterson1, Lawrence Griffing1

    1. Texas A&M University 2. Pennsylvania State University 3. South Arkansas Community College

    Learning through authentic scientific inquiries is essential for understanding the nature and process of science and for developing critical thinking and communication skills. It is logistically...

    https://qubeshub.org/publications/2564/?v=1

  2. Defenses against predation: Interpreting graphs of predator behavior

    21 Jul 2023 | Teaching Materials | Contributor(s):

    By Jennifer Schafer1, Lynette Strickland2

    1. Winthrop University 2. Boston University

    In this lesson, students discuss anti-predator defense mechanisms and the types of cues defenses provide to predators. Students then interpret graphs of behavior of arthropod predators when...

    https://qubeshub.org/publications/4471/?v=1

  3. Interspecific Competition: the Lotka-Volterra Model

    15 Feb 2019 | Teaching Materials | Contributor(s):

    By Lou Gross1, Monica Beals1, Susan Harrell1

    University of Tennessee Knoxville

    This module introduces the Lotka-Volterra Model in the context of understanding interspecific competition. It is intended for an introductory biology audience.

    https://qubeshub.org/publications/1061/?v=1

  4. Make Your Move: Interpreting graphs of pollinator behavior

    10 Aug 2022 | Teaching Materials | Contributor(s):

    By Rachel Pigg1, Suann Yang2

    1. University of Louisville 2. SUNY Geneseo

    In this lesson, students interpret graphs of pollinator movement behavior. Then, students view and reflect on an interview with community ecologist Dr. Suann Yang., who collected the data that they...

    https://qubeshub.org/publications/3482/?v=1

  5. Modification of "The Effect of Climate Change on Butterfly Phenology" module by Linton et al.

    30 May 2019 | Teaching Materials | Contributor(s):

    By Kaitlin Stack Whitney

    Rochester Institute of Technology

    This is a modification of the Linton et al. module in TIEE Volume 13. Students use data from digitized museum records of butterfly specimens in a modification with no homework (lab/workshop format)...

    https://qubeshub.org/publications/1163/?v=1

  6. The Effect of Climate Change on Butterfly Phenology

    29 May 2020 | Teaching Materials | Contributor(s):

    By Risa Cohen

    In this module, students explain the importance of collections in scientific research, manipulate data in a spreadsheet program, create properly plotted and labeled graphs, analyze data to test...

    https://qubeshub.org/publications/1876/?v=1

  7. The Effect of Climate Change on Butterfly Phenology

    21 May 2019 | Teaching Materials | Contributor(s):

    By Valerie Greene

    Diablo Valley College

    In this module, students explore changes in butterfly phenology through the use of natural history collections data. The resource I have modified is a pptx presentation to introduce the background...

    https://qubeshub.org/publications/1215/?v=1

  8. The Effect of Climate Change on Butterfly Phenology

    12 Jun 2018 | Teaching Materials | Contributor(s):

    By Debra Linton1, Anna Monfils1, Molly Phillips2, Elizabeth Ellwood3

    1. Central Michigan University 2. Florida Museum of Natural History 3. La Brea Tar Pits & Museum

    In this module, students explore changes in butterfly phenology through the use of natural history collections data.

    https://qubeshub.org/publications/469/?v=1

  9. The Effect of Climate Change on Butterfly Phenology - Intro Environmental Science

    01 Jun 2019 | Teaching Materials | Contributor(s):

    By Megan Kelly

    Arrupe College of Loyola University Chicago

    In this module, students practice interpreting the relationship between variables before exploring changes in butterfly phenology through the use of natural history collections data.

    https://qubeshub.org/publications/1266/?v=1