Sezaki & Nishiyama Laboratory
Institute of Industrial Science / Center for Spatial Information Science in The University of Tokyo
Institute of Industrial Science / Center for Spatial Information Science in The University of Tokyo
Kazuhiko W Nakamura, Ryuichi Watanabe, Akio Fujiwara, Kaoru Saito, Hill Hiroki Kobayashi, Kaoru Sezaki
Plant Phenology Observation by Students Using Time-Lapse Images: Creation of the Environment and Examination of Its Adequacy Journal Article Open Access
In: Environments, 5 (1), pp. 7, 2018.
Abstract | BibTeX | タグ: climate change, Cyberforest, environmental education, phenology | Links:
@article{nakamura2018plant,
title = {Plant Phenology Observation by Students Using Time-Lapse Images: Creation of the Environment and Examination of Its Adequacy},
author = {Kazuhiko W Nakamura and Ryuichi Watanabe and Akio Fujiwara and Kaoru Saito and Hill Hiroki Kobayashi and Kaoru Sezaki},
url = {https://doi.org/10.3390/environments5010007},
doi = {10.3390/environments5010007},
year = {2018},
date = {2018-01-02},
journal = {Environments},
volume = {5},
number = {1},
pages = {7},
publisher = {Multidisciplinary Digital Publishing Institute},
abstract = {For environmental education about climate change issues, selecting events that are already encountered by people as teaching materials is considered effective. Consideration of changes in leafing dates over time provides a useful tool, in particular when children themselves observe plant phenology, which can be achieved using time-lapse imagery. We postulated that creating an environment where this process can be conducted at school would give children a readiness of behavior toward resolution of climate change issues. Verification of how adequately children can undertake the observations is key to establishing the methodology’s effectiveness. In this research, we used time-lapse images from Shiga Heights, Nagano prefecture, Japan, that were taken once per day from 1987 to 2004; in each year from this series, we used the images taken from 27 May to 15 June, inclusive, as these were the dates during which leafing was expected. We created observation sheets and made these and the time-lapse images available for students on the Internet. As a result of our analysis of observations made by 543 students using the observation sheets, we determined that the method had sufficient adequacy for education. },
keywords = {climate change, Cyberforest, environmental education, phenology},
pubstate = {published},
tppubtype = {article}
}