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Hauptverfasser: Grisham, William, Schottler, Natalie A., Beck McCauley, Lisa M., Pham, Anh P., Ruiz, Maureen L., Fong, Michelle C., Cui, Xinran
Format: Recurso educativo Open Access
Sprache:en
Veröffentlicht: 2011
Schlagworte:
Online-Zugang:https://eric.ed.gov/?id=EJ936354
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author Grisham, William
Schottler, Natalie A.
Beck McCauley, Lisa M.
Pham, Anh P.
Ruiz, Maureen L.
Fong, Michelle C.
Cui, Xinran
author_facet Grisham, William
Schottler, Natalie A.
Beck McCauley, Lisa M.
Pham, Anh P.
Ruiz, Maureen L.
Fong, Michelle C.
Cui, Xinran
Grisham, William
Schottler, Natalie A.
Beck McCauley, Lisa M.
Pham, Anh P.
Ruiz, Maureen L.
Fong, Michelle C.
Cui, Xinran
collection Education Resources Information Center
contents Using Digital Images of the Zebra Finch Song System as a Tool to Teach Organizational Effects of Steroid Hormones: A Free Downloadable Module Grisham, William Schottler, Natalie A. Beck McCauley, Lisa M. Pham, Anh P. Ruiz, Maureen L. Fong, Michelle C. Cui, Xinran Animals Brain Gender Differences Visual Aids Instructional Materials College Science Science Instruction Biology Undergraduate Students Science Activities Laboratory Experiments Instructional Effectiveness Zebra finch song behavior is sexually dimorphic: males sing and females do not. The neural system underlying this behavior is sexually dimorphic, and this sex difference is easy to quantify. During development, the zebra finch song system can be altered by steroid hormones, specifically estradiol, which actually masculinizes it. Because of the ease of quantification and experimental manipulation, the zebra finch song system has great potential for use in undergraduate labs. Unfortunately, the underlying costs prohibit use of this system in undergraduate labs. Further, the time required to perform a developmental study renders such undertakings unrealistic within a single academic term. We have overcome these barriers by creating digital tools, including an image library of song nuclei from zebra finch brains. Students using this library replicate and extend a published experiment examining the dose of estradiol required to masculinize the female zebra finch brain. We have used this library for several terms, and students not only obtain significant experimental results but also make gains in understanding content, experimental controls, and inferential statistics (analysis of variance and post hoc tests). We have provided free access to these digital tools at the following website: http://mdcune.psych.ucla.edu/modules/birdsong. (Contains 6 figures and 1 table.)
format Recurso educativo Open Access
id eric_EJ936354
institution ERIC Institute of Education Sciences
language en
publishDate 2011
record_format eric
spellingShingle Using Digital Images of the Zebra Finch Song System as a Tool to Teach Organizational Effects of Steroid Hormones: A Free Downloadable Module
Grisham, William
Schottler, Natalie A.
Beck McCauley, Lisa M.
Pham, Anh P.
Ruiz, Maureen L.
Fong, Michelle C.
Cui, Xinran
Animals
Brain
Gender Differences
Visual Aids
Instructional Materials
College Science
Science Instruction
Biology
Undergraduate Students
Science Activities
Laboratory Experiments
Instructional Effectiveness
Using Digital Images of the Zebra Finch Song System as a Tool to Teach Organizational Effects of Steroid Hormones: A Free Downloadable Module Grisham, William Schottler, Natalie A. Beck McCauley, Lisa M. Pham, Anh P. Ruiz, Maureen L. Fong, Michelle C. Cui, Xinran Animals Brain Gender Differences Visual Aids Instructional Materials College Science Science Instruction Biology Undergraduate Students Science Activities Laboratory Experiments Instructional Effectiveness Zebra finch song behavior is sexually dimorphic: males sing and females do not. The neural system underlying this behavior is sexually dimorphic, and this sex difference is easy to quantify. During development, the zebra finch song system can be altered by steroid hormones, specifically estradiol, which actually masculinizes it. Because of the ease of quantification and experimental manipulation, the zebra finch song system has great potential for use in undergraduate labs. Unfortunately, the underlying costs prohibit use of this system in undergraduate labs. Further, the time required to perform a developmental study renders such undertakings unrealistic within a single academic term. We have overcome these barriers by creating digital tools, including an image library of song nuclei from zebra finch brains. Students using this library replicate and extend a published experiment examining the dose of estradiol required to masculinize the female zebra finch brain. We have used this library for several terms, and students not only obtain significant experimental results but also make gains in understanding content, experimental controls, and inferential statistics (analysis of variance and post hoc tests). We have provided free access to these digital tools at the following website: http://mdcune.psych.ucla.edu/modules/birdsong. (Contains 6 figures and 1 table.)
title Using Digital Images of the Zebra Finch Song System as a Tool to Teach Organizational Effects of Steroid Hormones: A Free Downloadable Module
topic Animals
Brain
Gender Differences
Visual Aids
Instructional Materials
College Science
Science Instruction
Biology
Undergraduate Students
Science Activities
Laboratory Experiments
Instructional Effectiveness
url https://eric.ed.gov/?id=EJ936354