Issue 12, 2023

Measuring city-scale green infrastructure drawdown dynamics using internet-connected sensors in Detroit

Abstract

The impact of green infrastructure (GI) on the urban drainage landscape remains largely unmeasured at high temporal and spatial scales. To that end, a data toolchain is introduced, underpinned by a novel wireless sensor network for continuously measuring real-time water levels in GI. The internet-connected sensors enable the collection of high-resolution data across large regions. A case study in Detroit (MI, US) is presented, where the water levels of 14 GI sites were measured in situ from June to September 2021. The large dataset is analyzed using an automated storm segmentation methodology, which automatically extracts and analyzes individual storms from measurement time series. Storms are used to parameterize a dynamical system model of GI drawdown dynamics. The model is completely described by the decay constant α, which is directly proportional to the drawdown rate. The parameter is analyzed across storms to compare GI dynamics between sites and to determine the major design and physiographic features that drive drawdown dynamics. A correlation analysis using Spearman's rank correlation coefficient reveals that depth to groundwater, imperviousness, longitude, and drainage area to surface area ratio are the most important features explaining GI drawdown dynamics in Detroit. A discussion is provided to contextualize these finding and explore the implications of data-driven strategies for GI design and placement.

Graphical abstract: Measuring city-scale green infrastructure drawdown dynamics using internet-connected sensors in Detroit

Supplementary files

Article information

Article type
Paper
Submitted
15 فرؤری 2023
Accepted
10 اکتوٗبر 2023
First published
10 اکتوٗبر 2023

Environ. Sci.: Water Res. Technol., 2023,9, 3213-3226

Author version available

Measuring city-scale green infrastructure drawdown dynamics using internet-connected sensors in Detroit

B. E. Mason, J. Schmidt and B. Kerkez, Environ. Sci.: Water Res. Technol., 2023, 9, 3213 DOI: 10.1039/D3EW00098B

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