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The Tree-mendous Benefits of Trees - Mentor Guide
16 Oct 2020 | Contributor(s): plantingscience
Trees are a critical component of our ecosystem: They can produce the food we eat, oxygen that we breathe, shade from the sun, and so much more. Trees are an important and recognizable part of landscapes and forests, but most people don't think about the importance of trees and their value to the...
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Genetics in Inbred Arabidopsis - Table of Contents
16 Oct 2018
Table of Contents for the Arabidopsis Student Guide
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Genetics in Inbred Arabidopsis - Table of Contents
16 Oct 2018
Table of Contents for the Arabidopsis Student Guide
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Class Overview Template
03 Jan 2017
Please use this template to provide information to potential mentors for your classroom. Answer the prompts in this template, then copy and paste the whole text into the group overview. This will help mentors you invite to your group (i.e., invite to mentor one of your project...
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Student Roster Template
03 Jan 2017
This is the template for teachers to complete and upload to the website - in the "Students" tab, in the "Projects" tab, in the classroom group.Please be aware:Only input students' first names, passwords and team assignments (e.g., 1, 2, 3, etc.).All passwords can be...
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Genetics in Inbred Arabidopsis - Student Guide
17 Jun 2016
What is a trait?Biologists use the terms "trait" and "phenotype" interchangeably. They both describe theexpressed characteristics of an organism. The color of a leaf, the height of a plant, the smell of a flower – these are all traits. This is not the same as an organism's genotype, although...
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Genetics in Inbred Arabidopsis - Student Guide
17 Jun 2016
What is a trait?Biologists use the terms "trait" and "phenotype" interchangeably. They both describe theexpressed characteristics of an organism. The color of a leaf, the height of a plant, the smell of a flower – these are all traits. This is not the same as an organism's genotype, although...
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Genetics in Inbred Arabidopsis - Teacher's Guide
16 Jun 2016
Abstract: Designed as a whole-class experiment, students work in teams to understand genotypicvariationamongrecombinantinbredlines(RILs)ofthemodelorganism Arabidopsisthaliana.Seedsareused from two parent lines, Columbia and Landsberg, as well as numerous...
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Genetics in Inbred Arabidopsis - Teacher's Guide
16 Jun 2016
Abstract: Designed as a whole-class experiment, students work in teams to understand genotypicvariationamongrecombinantinbredlines(RILs)ofthemodelorganism Arabidopsisthaliana.Seedsareused from two parent lines, Columbia and Landsberg, as well as numerous...
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Genetics in Inbred Arabidopsis - Table of Contents
16 Jun 2016
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Genetics in Inbred Arabidopsis - Table of Contents
16 Jun 2016
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Foundation of Genetics - Mentor Tip Sheet
16 Jun 2016
The purpose of this tip sheet is to help you as a scientist mentor anticipate and respond to students as they post online about their investigations on a Brassica rapa population.
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Foundation of Genetics - Glossary and Appendices
16 Jun 2016
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Foundation of Genetics - Plants, Genetics, Environment
16 Jun 2016
This section is dedicated to carrying out data collection, analysis, and sense-making throughout the lifecycle of Brassica rapa. As a reminder, the parent lines, the F1 generation, and the F2 generation (whichstudents are growing) are shown below in diagram with their respective phenotypes...
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Foundation of Genetics - Growing System Logistics
16 Jun 2016
The EnvironmentHere we focus on setting up your growing system, including light, and soil / nutrition, and water system.This is also a perfect opportunity to explore with your students the environmental needs of plants.Plants need light, air, water, appropriate temperature, and nutrition...
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Foundation of Genetics - Table of Contents
16 Jun 2016
See what is covered in this module through the Table of Contents.
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Foundation of Genetics - Overview and Planning
16 Jun 2016
Abstract: Designed as a whole‐class experiment, students work in teams to grow a selected strain of Brassica rapa plants from seed to seed, and monitor plant traits as they develop over the course of a life cycle. Observations and measurements are made, pooled with data from other...
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PlantingScience College Consent Form
19 May 2016
This form needs to be completed for each college-age participant in a PlantingScience module. Signing this form grants PlantingScience the ability to use images and videos from student projects.
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PlantingScience K-12 Consent Form
19 May 2016
This form needs to be completed for each student participating in the PlantingScience online community.****Parental consent MUST be obtained for students 13 years of age and under.**Parental consent is NOT necessary for students over 13 years of age, and the students will need to...
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Letter for School Authority to Sign
19 May 2016
**For schools in the United States ONLY**Containing information on the PlantingScience online community, this letter is to be sent to main authority for your school or school district. In this letter we describe how secondary school teachers, students, and plant scientists work together in...
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The Wonder of Seeds - Mentor Tip Sheet
19 May 2016 | Contributor(s): plantingscience
The purpose of this tip sheet is to help you as a scientist mentor anticipate and respond to students as they post online about their germination and seedling growth investigations.
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The Wonder of Seeds - Teacher's Guide
17 May 2016 | Teacher Resources | Contributor(s): plantingscience
Investigations in Germination & Growth Teachers, please access the student handouts for students to use in the classroom.
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The Wonder of Seeds - Student's Guide
17 May 2016 | Student Resources | Contributor(s): plantingscience
Investigations in Germination & Plant Growth
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Teacher Handbook
09 May 2016 | Teacher Resources
Use this handbook to learn about PlantingScience and how to use it most effectively. Further, a review of this FREE resource from the National Academy of Sciences - Decoding Science - is a fantastic review of what science IS and what it means to DO science.
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Storyboard
09 May 2016 | Teacher Resources
Storyboarding consolidates evidence so students can consider how their data fits into their models. By sharing their stories and allowing others to question their conclusions, students learn to reconcile evidence as scientists do. This is sometimes referred to as scientific thinking.