Data Analysis for Optimization of Mars Terraforming: A GIS Framework

This study has developed a GIS framework that uses spatial environmental and climate data to better understand areas on Earth that share the most environmental similarities to Mars. The purpose of developing this framework is to determine which vegetation is most likely to survive in closed bioregen...

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Main Author:	Elissa Penfound
Format:	Thesis
Language:	unknown
Published:	2019
Subjects:	Geographic information system (GIS and GPS) applications Space environment Biodiversity > Measurement Bryophytes Antarctic Antarctic Peninsula Devon Island Ellesmere Island The Antarctic Antarc*
Online Access:	https://doi.org/10.32920/ryerson.14664861.v1 https://figshare.com/articles/thesis/Data_Analysis_for_Optimization_of_Mars_Terraforming_A_GIS_Framework/14664861

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spelling	fttorometrofigs:oai:figshare.com:article/14664861 2023-11-12T04:02:05+01:00 Data Analysis for Optimization of Mars Terraforming: A GIS Framework Elissa Penfound 2019-01-01T00:00:00Z https://doi.org/10.32920/ryerson.14664861.v1 https://figshare.com/articles/thesis/Data_Analysis_for_Optimization_of_Mars_Terraforming_A_GIS_Framework/14664861 unknown doi:10.32920/ryerson.14664861.v1 https://figshare.com/articles/thesis/Data_Analysis_for_Optimization_of_Mars_Terraforming_A_GIS_Framework/14664861 In Copyright Geographic information system (GIS and GPS) applications Space environment Biodiversity -- Measurement Bryophytes Text Thesis 2019 fttorometrofigs https://doi.org/10.32920/ryerson.14664861.v1 2023-10-15T05:46:08Z This study has developed a GIS framework that uses spatial environmental and climate data to better understand areas on Earth that share the most environmental similarities to Mars. The purpose of developing this framework is to determine which vegetation is most likely to survive in closed bioregenerative life support systems on Mars, using as many in-situ materials and environmental elements as possible. Using remotely sensed climate data, digital elevation models, and vegetation occurrence data sourced from the Global Biodiversity Information Facility, three Mars-like study areas on Earth were analysed (the Antarctic Peninsula, Ellesmere Island, and Devon Island). This study found that plants that are part of the Bryophyte and Tracheophyta phyla are worthy of further research in regard to possible vegetation candidates that could be brought to Mars. In addition, the most promising candidate of the entire study is the genus Poa, which is found in the phylum Tracheophyta. Thesis Antarc* Antarctic Antarctic Peninsula Devon Island Ellesmere Island Research from Toronto Metropolitan University Antarctic Antarctic Peninsula Devon Island ENVELOPE(-88.000,-88.000,75.252,75.252) Ellesmere Island The Antarctic
institution	Open Polar
collection	Research from Toronto Metropolitan University
op_collection_id	fttorometrofigs
language	unknown
topic	Geographic information system (GIS and GPS) applications Space environment Biodiversity -- Measurement Bryophytes
spellingShingle	Geographic information system (GIS and GPS) applications Space environment Biodiversity -- Measurement Bryophytes Elissa Penfound Data Analysis for Optimization of Mars Terraforming: A GIS Framework
topic_facet	Geographic information system (GIS and GPS) applications Space environment Biodiversity -- Measurement Bryophytes
description	This study has developed a GIS framework that uses spatial environmental and climate data to better understand areas on Earth that share the most environmental similarities to Mars. The purpose of developing this framework is to determine which vegetation is most likely to survive in closed bioregenerative life support systems on Mars, using as many in-situ materials and environmental elements as possible. Using remotely sensed climate data, digital elevation models, and vegetation occurrence data sourced from the Global Biodiversity Information Facility, three Mars-like study areas on Earth were analysed (the Antarctic Peninsula, Ellesmere Island, and Devon Island). This study found that plants that are part of the Bryophyte and Tracheophyta phyla are worthy of further research in regard to possible vegetation candidates that could be brought to Mars. In addition, the most promising candidate of the entire study is the genus Poa, which is found in the phylum Tracheophyta.
format	Thesis
author	Elissa Penfound
author_facet	Elissa Penfound
author_sort	Elissa Penfound
title	Data Analysis for Optimization of Mars Terraforming: A GIS Framework
title_short	Data Analysis for Optimization of Mars Terraforming: A GIS Framework
title_full	Data Analysis for Optimization of Mars Terraforming: A GIS Framework
title_fullStr	Data Analysis for Optimization of Mars Terraforming: A GIS Framework
title_full_unstemmed	Data Analysis for Optimization of Mars Terraforming: A GIS Framework
title_sort	data analysis for optimization of mars terraforming: a gis framework
publishDate	2019
url	https://doi.org/10.32920/ryerson.14664861.v1 https://figshare.com/articles/thesis/Data_Analysis_for_Optimization_of_Mars_Terraforming_A_GIS_Framework/14664861
long_lat	ENVELOPE(-88.000,-88.000,75.252,75.252)
geographic	Antarctic Antarctic Peninsula Devon Island Ellesmere Island The Antarctic
geographic_facet	Antarctic Antarctic Peninsula Devon Island Ellesmere Island The Antarctic
genre	Antarc* Antarctic Antarctic Peninsula Devon Island Ellesmere Island
genre_facet	Antarc* Antarctic Antarctic Peninsula Devon Island Ellesmere Island
op_relation	doi:10.32920/ryerson.14664861.v1 https://figshare.com/articles/thesis/Data_Analysis_for_Optimization_of_Mars_Terraforming_A_GIS_Framework/14664861
op_rights	In Copyright
op_doi	https://doi.org/10.32920/ryerson.14664861.v1
_version_	1782333706711597056

Data Analysis for Optimization of Mars Terraforming: A GIS Framework

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