A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]

Global lakes and reservoirs emit methane to the atmosphere. Using diverse lake characteristics data and a lake biogeochemistry model, we estimate global lake methane emissions and investigate the effects of temperature increase, permafrost thaw, and thermokarst lake areal changes for the first and t...

Full description

Bibliographic Details
Main Authors: Mingyang Guo, Qianlai Zhuang
Format: Dataset
Language:unknown
Published: 2023
Subjects:
ALBM
Biogeochemical model
EAPS
lake model
Methane Emission
permafrost
Thermokarst
Online Access:https://doi.org/10.4231/67YG-V518
id ftpurdueunivpurr:https://doi.org/10.4231/67YG-V518
record_format openpolar
spelling ftpurdueunivpurr:https://doi.org/10.4231/67YG-V518 2023-11-12T04:24:32+01:00 A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0] Mingyang Guo Qianlai Zhuang 2023-01-25T08:01:56Z https://doi.org/10.4231/67YG-V518 unknown https://doi.org/10.4231/67YG-V518 ALBM Biogeochemical model EAPS lake model Methane Emission publications:dataset 2023 ftpurdueunivpurr https://doi.org/10.4231/67YG-V518 2023-10-30T09:32:39Z Global lakes and reservoirs emit methane to the atmosphere. Using diverse lake characteristics data and a lake biogeochemistry model, we estimate global lake methane emissions and investigate the effects of temperature increase, permafrost thaw, and thermokarst lake areal changes for the first and the last decades of the 21st century under different climate scenarios. This data deposit contains the code of the lake biogeochemistry model used for these emission estimates. Dataset permafrost Thermokarst Purdue University Research Repository
institution Open Polar
collection Purdue University Research Repository
op_collection_id ftpurdueunivpurr
language unknown
topic ALBM
Biogeochemical model
EAPS
lake model
Methane Emission
spellingShingle ALBM
Biogeochemical model
EAPS
lake model
Methane Emission
Mingyang Guo
Qianlai Zhuang
A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
topic_facet ALBM
Biogeochemical model
EAPS
lake model
Methane Emission
description Global lakes and reservoirs emit methane to the atmosphere. Using diverse lake characteristics data and a lake biogeochemistry model, we estimate global lake methane emissions and investigate the effects of temperature increase, permafrost thaw, and thermokarst lake areal changes for the first and the last decades of the 21st century under different climate scenarios. This data deposit contains the code of the lake biogeochemistry model used for these emission estimates.
format Dataset
author Mingyang Guo
Qianlai Zhuang
author_facet Mingyang Guo
Qianlai Zhuang
author_sort Mingyang Guo
title A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
title_short A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
title_full A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
title_fullStr A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
title_full_unstemmed A process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
title_sort process-based biogeochemistry model and analysis for current and future global lake methane emissions [version 1.0]
publishDate 2023
url https://doi.org/10.4231/67YG-V518
genre permafrost
Thermokarst
genre_facet permafrost
Thermokarst
op_relation https://doi.org/10.4231/67YG-V518
op_doi https://doi.org/10.4231/67YG-V518
_version_ 1782339016615526400

Similar Items