This case study follows two beginning undergraduate researchers on a quest for a summer research project related to food web ecology. While writing their research proposal, the students receive feedback indicating that they have neglected an entire group of organisms from their food web-parasites, which leads them to a scientific research paper discussing how these organisms have been overlooked by scientists studying food webs, the challenges involved with including parasites in food webs, and the contributions parasites ultimately make to food webs. An integrated activity in which students visualize the food web using images of organisms and answer questions about species interactions provides opportunities to examine key concepts such as omnivory, ontogenetic diet changes, trophic levels, complex life cycles, and taxonomic aggregation. This case study was originally written for an undergraduate general ecology course, but could easily be adapted to undergraduate general biology courses covering community ecology or specific courses in invertebrate zoology, parasitology, or disease ecology. The teaching notes also discuss how the included code for R statistical computing software can be used to extend the case study in a more quantitative direction if desired.
The Tree of Life Web Project (ToL) is a collaborative effort of biologists and nature enthusiasts from around the world. On more than 10,000 World Wide Web pages, the project provides information about biodiversity, the characteristics of different groups of organisms, and their evolutionary history (phylogeny).
Well organized teacher site- AP Biology Web site for Ms. Foglia's Regents Biology (10th grade Living Environment) course at Division Avenue High School, Levittown. It will be a busy year and I will use this Web site to help you to do the best you can. All paperwork, labs, and resources used or mentioned in class will be posted here.
Explore food chains, food webs, energy pyramids, and the power of biodiversity in this ecology video by the Amoeba Sisters! This video also introduces general vocabulary for the unit of ecology.
The first activity will have you investigate some of the animals in the Mexican ecosystem. Figure out who are the predators and who are their prey and build your own food web.
Data rich simulation where students adjust parameters and run simulator for 100 iterations and see how 1) two plant species compete for a niche or 2) how composition of a food web changes over time
Links to online textbook, videos, visuals, scientists.
is a web-based library of inquiry-based character-driven animated mysteries paired with differentiated supplemental activities that exposes students to the thrill of problem-solving. Mosa Mack allows educators to engage students while teaching standards-aligned content in a fun and engaging way while modeling scientific processing skills.
Through its female protagonist whose passion for problem solving drives each story, Mosa Mack promotes diversity in the sciences while simultaneously providing teachers with an accessible way to incorporate inquiry into the classroom. Mosa Mack's unique inquiry-based approach targets the development of critical thinking skills for all students, with a particular focus on girls and minorities with historically low participation STEM fields.
TeachEngineering.org is a collaborative project between faculty, students and teachers associated with five universities and the American Society for Engineering Education, with NSF National Science Digital Library funding.
TeachEngineering.org is a searchable, web-based digital library collection populated with standards-based engineering curricula for use by K-12 teachers and engineering faculty to make applied science and math (engineering) come alive in K-12 settings.
The TeachEngineering collection provides educators with *free* access to a growing curricular resource of multi-week units, lessons, activities and living labs. Initiated by the merging of K-12 engineering curricula created by four universities, the collection continues to grow and evolve over time with new additions from other universities, and input from teachers who use the curricula in their classrooms.
Explore the diversity and evolution of birds with this web interactive based on the Wall of Birds mural. Envisioned by Cornell Lab ornithologists and realized by artist Jane Kim, the large-scale mural features species from all surviving bird families alongside a select group of extinct ancestors.
Introducing your students to Scratch will provide your students with hands-on opportunities to think creatively, solve problems and work collaboratively. Scratch is a visual programming platform created at the Massachusetts Institute of Technology (MIT) by the Lifelong Kindergarten Group at the MIT Media Lab and is available to all users free of charge. This web-based tool is designed for students ages 8 to 16 but used by people of all ages. With Scratch, you can program your own interactive stories, games, and animations - and share your creations with others in the online community.
About GeneCards®: GeneCards is a searchable, integrated database of human genes that provides comprehensive, updated, and user-friendly information on all known and predicted human genes.
GeneCards extracts and integrates gene-related data, including genomic, transcriptomic, proteomic, genetic, clinical, and functional information. This is automatically mined from >100 carefully selected web sources, thereby allowing one-stop access to a very broad information base. GeneCards overcomes barriers of data format and heterogeneity, and uses standard nomenclature and approved gene symbols. It presents a rich subset of data for each gene, and provides deep links to the original sources for further scrutiny. GeneCards is widely used, and assists in the understanding of gene-related aspects of biology and medicine.
myBrainshark is a superb tool that allows students to add a voiceover to PowerPoint presentations, Word documents, videos and photo albums -- or to simply produce podcasts. It then blends the visual and audio components together into a video presentation. In the classroom, your students can present completed projects using myBrainshark, rather than face-to-face, or they can use it for mock presentations allowing the teacher to give feedback before the real presentation. The former can help bolster the confidence and communication skills of introverted and/or passive learners. Teachers can also turn their PowerPoint presentations into narrated video presentations (e.g. explanation of concepts) that students can watch outside of school hours. The most immediate limitation of this tool is that presentations cannot be downloaded in the free version. If you are looking for a tool that also allows for video narratives along with PowerPoint presentations (instead of basic audio), I would suggest Present.me.
If you've never done a science fair project before, DON'T PANIC! The IPL's Science Fair Project Resource Guide will help you through the whole project by guiding you to a variety of excellent web resources.