A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions

BackgroundThe ecosystem classification of land (ECL) has been studied for a couple of decades, from the beginning of the perfect organism system “top-down” approach to a reversed “bottom-up” approach by defining a micro-ecological unit. After comparing two cases of the ecosystem classification frame...

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Published in:Environmental Systems Research
Main Author: Zhang, YanQing
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Handle The
Tundra
Online Access:https://doi.org/10.1186/s40068-021-00243-3
http://summit.sfu.ca/item/21528
id ftsimonfu:oai:summit.sfu.ca:21528
record_format openpolar
spelling ftsimonfu:oai:summit.sfu.ca:21528 2023-05-15T18:40:44+02:00 A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions Zhang, YanQing 2021-10-01 https://doi.org/10.1186/s40068-021-00243-3 http://summit.sfu.ca/item/21528 English eng doi:10.1186/s40068-021-00243-3 http://summit.sfu.ca/item/21528 Article 2021 ftsimonfu https://doi.org/10.1186/s40068-021-00243-3 2022-04-07T18:44:06Z BackgroundThe ecosystem classification of land (ECL) has been studied for a couple of decades, from the beginning of the perfect organism system “top-down” approach to a reversed “bottom-up” approach by defining a micro-ecological unit. After comparing two cases of the ecosystem classification framework implemented in the different continental ecoregions, the processes were carefully examined and justified.ResultsTheoretically, Bailey’s upper levels of ECL (Description of the ecoregions of the United States, 2nd ed. Rev and expanded (1st ed. 1980). Misc. Publ. No. 1391 (Rev). Washington DC USDA Forest Service; 1995) were applied to the United States and world continents. For the first time, a complete ECL study was accomplished in Western Utah of the United States, with eight upper levels of ECOMAP (National hierarchical framework of ecological units. U.S. Department of Agriculture, Forest Service, Washington, DC. https://www.researchgate.net/publication/237419014_National_hierarchical. 1993) plus additional ecological site and vegetation stand. China’s Eco-geographic classification was most likely fitted into Bailey’s Ecosystem Classification upper-level regime. With a binary decision tree analysis, it had been validated that the Domains have an empty entity for 500 Plateau Domain between the US and China ecoregion framework. Implementing lower levels of ECL to Qinghai Province of China, based on the biogeoclimatic condition, vegetation distribution, landform, and plant species feature, it had classified the Section HIIC1 into two Subsections (labeled as i, ii), and delineated iia of QiLian Mountain East Alpine Shrub and Alpine Tundra Ecozone into iia-1 and iia-2 Subzones. Coordinately, an Ecological Site was completed at the bottom level.Conclusions(1) It was more experimental processing by implementing a full ECL in the Western Utah of the United States based on the ECOMAP (1993). (2) The empty entity, named as Plateau Domain 500, should be added into the top-level Bailey’s ecoregion framework. Coordinately, it includes the Divisions of HI and HII and the Provinces of humid, sub-humid, semiarid, and arid for China's Eco-Geographic region. (3) Implementing a full ECL in a different continent and integrating the lower level's models was the process that could handle the execution management, interpreting the relationship of ecosystem, dataset conversion, and error correction. Article in Journal/Newspaper Tundra Summit - SFU Research Repository (Simon Fraser University) Handle The ENVELOPE(161.983,161.983,-78.000,-78.000) Environmental Systems Research 10 1
institution Open Polar
collection Summit - SFU Research Repository (Simon Fraser University)
op_collection_id ftsimonfu
language English
description BackgroundThe ecosystem classification of land (ECL) has been studied for a couple of decades, from the beginning of the perfect organism system “top-down” approach to a reversed “bottom-up” approach by defining a micro-ecological unit. After comparing two cases of the ecosystem classification framework implemented in the different continental ecoregions, the processes were carefully examined and justified.ResultsTheoretically, Bailey’s upper levels of ECL (Description of the ecoregions of the United States, 2nd ed. Rev and expanded (1st ed. 1980). Misc. Publ. No. 1391 (Rev). Washington DC USDA Forest Service; 1995) were applied to the United States and world continents. For the first time, a complete ECL study was accomplished in Western Utah of the United States, with eight upper levels of ECOMAP (National hierarchical framework of ecological units. U.S. Department of Agriculture, Forest Service, Washington, DC. https://www.researchgate.net/publication/237419014_National_hierarchical. 1993) plus additional ecological site and vegetation stand. China’s Eco-geographic classification was most likely fitted into Bailey’s Ecosystem Classification upper-level regime. With a binary decision tree analysis, it had been validated that the Domains have an empty entity for 500 Plateau Domain between the US and China ecoregion framework. Implementing lower levels of ECL to Qinghai Province of China, based on the biogeoclimatic condition, vegetation distribution, landform, and plant species feature, it had classified the Section HIIC1 into two Subsections (labeled as i, ii), and delineated iia of QiLian Mountain East Alpine Shrub and Alpine Tundra Ecozone into iia-1 and iia-2 Subzones. Coordinately, an Ecological Site was completed at the bottom level.Conclusions(1) It was more experimental processing by implementing a full ECL in the Western Utah of the United States based on the ECOMAP (1993). (2) The empty entity, named as Plateau Domain 500, should be added into the top-level Bailey’s ecoregion framework. Coordinately, it includes the Divisions of HI and HII and the Provinces of humid, sub-humid, semiarid, and arid for China's Eco-Geographic region. (3) Implementing a full ECL in a different continent and integrating the lower level's models was the process that could handle the execution management, interpreting the relationship of ecosystem, dataset conversion, and error correction.
format Article in Journal/Newspaper
author Zhang, YanQing
spellingShingle Zhang, YanQing
A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
author_facet Zhang, YanQing
author_sort Zhang, YanQing
title A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
title_short A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
title_full A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
title_fullStr A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
title_full_unstemmed A Hierarchical Analysis of Ecosystem Classification With Implementing in Two Continental Ecoregions
title_sort hierarchical analysis of ecosystem classification with implementing in two continental ecoregions
publishDate 2021
url https://doi.org/10.1186/s40068-021-00243-3
http://summit.sfu.ca/item/21528
long_lat ENVELOPE(161.983,161.983,-78.000,-78.000)
geographic Handle The
geographic_facet Handle The
genre Tundra
genre_facet Tundra
op_relation doi:10.1186/s40068-021-00243-3
http://summit.sfu.ca/item/21528
op_doi https://doi.org/10.1186/s40068-021-00243-3
container_title Environmental Systems Research
container_volume 10
container_issue 1
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