Forecasting Methane Data Using Multivariate Long Short-Term Memory Neural Networks

Luo, Ran; Wang, Jingyi; Gates, Ian

doi:10.1007/s10666-024-09957-x

Environ Model Assess

2024

DOI: 10.1007/s10666-024-09957-x

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Forecasting Methane Data Using Multivariate Long Short-Term Memory Neural Networks

Ran Luo,

Jingyi Wang,

Ian Gates

Abstract: Over the past few decades, Alberta has witnessed a remarkable expansion in its oil and gas sector. Unfortunately, this growth has come at a cost, as Alberta has become the fastest-growing source of pollutant emissions in greenhouse gases (GHGs), sulphur emissions, and water pollution in Canada. Among these GHGs, methane stands out as the second most prevalent GHG, possessing a global warming potential ~ 28 times higher than carbon dioxide over a span of 100 years, and ~ 80 times higher over a period of 20 year… Show more

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Satellite Data and Machine Learning for Benchmarking Methane Concentrations in the Canadian Dairy Industry

Bi,

Neethirajan

2024

Sustainability

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Amid escalating climate change concerns, methane—a greenhouse gas with a global warming potential far exceeding that of carbon dioxide—demands urgent attention. The Canadian dairy industry significantly contributes to methane emissions through cattle enteric fermentation and manure management practices. Precise benchmarking of these emissions is critical for developing effective mitigation strategies. This study ingeniously integrates eight years of Sentinel-5P satellite data with advanced machine learning techniques to establish a methane concentration benchmark and predict future emission trends in the Canadian dairy sector. By meticulously analyzing weekly methane concentration data from 575 dairy farms and 384 dairy processors, we uncovered intriguing patterns: methane levels peak during autumn, and Ontario exhibits the highest concentrations among all provinces. The COVID-19 pandemic introduced unexpected shifts in methane emissions due to altered production methods and disrupted supply chains. Our Long Short-Term Memory (LSTM) neural network model adeptly captures methane concentration trends, providing a powerful tool for planning and reducing emissions from dairy operations. This pioneering approach not only demonstrates the untapped potential of combining satellite data with machine learning for environmental monitoring but also paves the way for informed emission reduction strategies in the dairy industry. Future endeavors will focus on enhancing satellite data accuracy, integrating more granular farm and processor variables, and refining machine learning models to bolster prediction precision.

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Satellite Data and Machine Learning for Benchmarking Methane Concentrations in the Canadian Dairy Industry

Bi,

Neethirajan

2024

Sustainability

View full text Add to dashboard Cite

show abstract

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Forecasting Methane Data Using Multivariate Long Short-Term Memory Neural Networks

Cited by 1 publication

References 28 publications

Satellite Data and Machine Learning for Benchmarking Methane Concentrations in the Canadian Dairy Industry

Satellite Data and Machine Learning for Benchmarking Methane Concentrations in the Canadian Dairy Industry

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