There is life all around us! Look out a window, and we …
There is life all around us! Look out a window, and we see a variety of living things. Even in the middle of a big city, plants grow in between cracks in the sidewalk. All that life is called Biodiversity. Check out the Natural Resources Intern video to learn how high school students are improving biodiversity on an Eastern Oregon ranch. Then, in the Discovery Challenge video, investigate biodiversity at two different sites by collecting data at each sites. With your data, you will be able to compare the biodiversity at the two sites.
This lesson introduces NGSS standards, and those standards are listed in the lesson and is part of the Explore Science Club series, an online Career Connected Learning program developed by the Greater Oregon STEM Hub. To learn more find us at: www.go-stem.org.
Short Description: The aim of this book is to build a bridge …
Short Description: The aim of this book is to build a bridge between conservation theory and practice. The narrative is focused specifically on Canada. This permits an integrated treatment, where conservation theory is presented in the context of the social and institutional framework responsible for its implementation. Special attention is given to topics that are the subject of debate or controversy, as they provide valuable insight into the practical aspects of conservation. The result is a comprehensive synthesis of applied biodiversity conservation, tailored to the needs of conservation students and practitioners in Canada.
Long Description: Conservation is often portrayed as an applied science—a body of knowledge about how ecological systems function, how they are threatened, and how they can be maintained. Conservation is also a form of management. It entails working with people to achieve desired ecological outcomes, grappling with conflicting land-use objectives, and making optimal use of available conservation resources. The aim of this book is to build a bridge between these two perspectives, linking theory with practice.
Major topic areas include the history of conservation, the social and scientific foundations of conservation, threats to biodiversity, applied conservation methods at both the species and ecosystem levels, the accommodation of climate change, and structured decision making. Special attention is given to topics that are the subject of debate or controversy, as they provide valuable insight into the practical aspects of conservation. The narrative is focused specifically on Canada. This permits an integrated treatment, where conservation theory is presented in the context of the social and institutional framework responsible for its implementation. The result is a comprehensive synthesis of applied conservation, tailored to the needs of conservation students and practitioners in Canada. Learning is supported by an engaging and clear writing style and 196 colour illustrations.
Word Count: 160462
ISBN: 978-1-55195-494-3
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
In this lab activity, students investigate how to prepare a biofuel source …
In this lab activity, students investigate how to prepare a biofuel source for conversion to a combustible product. The activity models how raw materials are refined to process liquid fuels.
This video provides an overview of the research of the U.S. Department …
This video provides an overview of the research of the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) on converting biomass to liquid fuels.
This case study describes a practical exercise developed for students in the …
This case study describes a practical exercise developed for students in the School of Geography and Environmental Science at Monash University. The exercise is based around simple bioclimatic modelling techniques and designed for first-year university students of biogeography, ecology and climatology. It incorporates aspects of past, present and future climates and their impact on species distributions, particularly in Victoria, but could be easily modified to suit any part of Australia. The practical exercise has three main parts: the first is on animal distributions under current and future climates; the second concerns plant distributions in the past and present; and the third part looks at how rare and endangered species may respond to future climate change in alpine environments.
Students will discuss the definition of a biography and determine what elements …
Students will discuss the definition of a biography and determine what elements it contains. They will research a famous person and create a web graphic organizer with key achievements and personal information from their life. Peer feedback will be given on the web creation and then an oral presentation will be given.
This course covers sensing and measurement for quantitative molecular/cell/tissue analysis, in terms …
This course covers sensing and measurement for quantitative molecular/cell/tissue analysis, in terms of genetic, biochemical, and biophysical properties. Methods include light and fluorescence microscopies; electro-mechanical probes such as atomic force microscopy, laser and magnetic traps, and MEMS devices; and the application of statistics, probability and noise analysis to experimental data. Enrollment preference is given to juniors and seniors.
Biology for Non-Majors II introduces students to the basics of the scientific …
Biology for Non-Majors II introduces students to the basics of the scientific process and covers some of biology’s most compelling topics surrounding the history and diversity of life, including discussion on the different kingdoms of life, with focus on plants and animals, as well as an introduction to ecology. Designed for non-life science majors, this course is the first in a two-part series that completes a survey of biological principles.
This course provides intensive coverage of the theory and practice of electromechanical …
This course provides intensive coverage of the theory and practice of electromechanical instrument design with application to biomedical devices. Students will work with MGH doctors to develop new medical products from concept to prototype development and testing. Lectures will present techniques for designing electronic circuits as part of complete sensor systems. Topics covered include: basic electronics circuits, principles of accuracy, op amp circuits, analog signal conditioning, power supplies, microprocessors, wireless communications, sensors, and sensor interface circuits. Labs will cover practical printed circuit board (PCB) design including component selection, PCB layout, assembly, and planning and budgeting for large projects. Problem sets and labs in the first six weeks are in support of the project. Major team-based design, build, and test project in the last six weeks. Student teams will be composed of both electrical engineering and mechanical engineering students.
This course presents the fundamentals of digital signal processing with particular emphasis …
This course presents the fundamentals of digital signal processing with particular emphasis on problems in biomedical research and clinical medicine. It covers principles and algorithms for processing both deterministic and random signals. Topics include data acquisition, imaging, filtering, coding, feature extraction, and modeling. The focus of the course is a series of labs that provide practical experience in processing physiological data, with examples from cardiology, speech processing, and medical imaging. The labs are done in MATLAB® during weekly lab sessions that take place in an electronic classroom. Lectures cover signal processing topics relevant to the lab exercises, as well as background on the biological signals processed in the labs.
This is a long-term inquiry activity in which students investigate locations they …
This is a long-term inquiry activity in which students investigate locations they believe harbor cellulose-digesting microbes, collect samples, isolate them on selective media, and screen them for cellulase activity. These novel microbes may be useful for the production of cellulosic ethanol. In the process they learn about plating techniques, serial dilutions, symbiotic relationships and enzyme specificity. Two methods are provided, one focusing on isolation of pure microbial strains, the other focusing on finding symbiotic communities of microbes. The companion activity is here: https://www.glbrc.org/outreach/educational-materials/bioprospecting-cellulose-degrading-microbes-filter-paper-assay
A weekly bioregion homework assignment exploring for the student local landscape changes. …
A weekly bioregion homework assignment exploring for the student local landscape changes. What were the past natural conditions and native uses to todays uses, as well as projected changes in the coming decades.
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Biosecurity is an essential part of maintaining a herd's health as well …
Biosecurity is an essential part of maintaining a herd's health as well as the profitability of the operation. This site provides easy to use and comprehensive resources for assessing the current biosecurity protections in an operation, an example of a biosecurity plan, a template for creating a biosecurity plan, and information on communicating to stakeholders about a crisis.
How can you tell if harmful bacteria are in your food or …
How can you tell if harmful bacteria are in your food or water that might make you sick? What you eat or drink can be contaminated with bacteria, viruses, parasites and toxins—pathogens that can be harmful or even fatal. Students learn which contaminants have the greatest health risks and how they enter the food supply. While food supply contaminants can be identified from cultures grown in labs, bioengineers are creating technologies to make the detection of contaminated food quicker, easier and more effective.
Students are given data for three unidentified hypothetical environments and asked to …
Students are given data for three unidentified hypothetical environments and asked to determine the relative effects of mixed layer thickness, sediment accumulation rate, and bioturbation rate based on a simple diffusion-based model of bioturbation. Students are asked to identify the three unknown environments based on the data. Students are then asked questions regarding the effects of the model on temporal resolution and porewater chemistry and the resulting fossil assemblages.
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In this activity, students construct "flying birds" (pollution collectors) from paper and …
In this activity, students construct "flying birds" (pollution collectors) from paper and wire hangers. Students hang up their birds to see how they react to air pollution, and compare and make observations about the differences in the birds.
This lesson is going to walk through the timeline of birth control. …
This lesson is going to walk through the timeline of birth control. You will need to print out the birth control note guide for them to fill out while the read the SoftChalk.
In this lesson students will learn about some common birth defects. Students …
In this lesson students will learn about some common birth defects. Students will sign up for a topic they want to learn more about. Students will prepare a slide presentation to share with the class. Students will define the birth defects in their notes. A matching worksheet is provided to help students review.
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