Hydro-bio-geo-socio-chemical interactions and the sustainability of residential landscapes

Groffman, Peter M; Suchy, Amanda K; Locke, Dexter H; Johnston, Robert J; Newburn, David A; Gold, Arthur J; Band, Lawrence E; Duncan, Jonathan; Grove, J Morgan; Kao-Kniffin, Jenny; Meltzer, Hallee; Ndebele, Tom; O’Neil-Dunne, Jarlath; Polsky, Colin; Thompson, Grant L; Wang, Haoluan; Zawojska, Ewa

doi:10.1093/pnasnexus/pgad316

PNAS Nexus

2023

DOI: 10.1093/pnasnexus/pgad316

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Hydro-bio-geo-socio-chemical interactions and the sustainability of residential landscapes

Peter M Groffman,

Amanda K Suchy,

Dexter H Locke

et al.

Abstract: Residential landscapes are essential to the sustainability of large areas of the United States. However, spatial and temporal variation across multiple domains complicates developing policies to balance these systems’ environmental, economic, and equity dimensions. We conducted multidisciplinary studies in the Baltimore, MD, USA, metropolitan area to identify locations (hotspots) or times (hot moments) with a disproportionate influence on nitrogen export, a widespread environmental concern. Results showed high… Show more

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Cited by 2 publications

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Characterizing suburban soil and microbial properties along a soil age chronosequence

Suratt,

Behl,

Hong

et al. 2024

Ecosphere

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Rapid urbanization is drastically altering ecosystem processes in landscapes around the world. In particular, suburban residential neighborhoods comprise novel ecosystems with water and nutrient inputs that differ greatly from the surrounding land area. These impacts generate concern over the sustainability of urban ecosystems, especially whether they will be characterized by net carbon gain or loss over time. To address this knowledge gap, we established a chronosequence of residential yards in Southern California to test how urban soils change after development. We predicted that urbanized soils would experience shifts in physical characteristics and microbial function over time consistent with ecological succession theory, but residential soils would maintain novel moisture and nutrient regimes compared to undeveloped soils, never “recovering” to a pre‐developed state. We compared different vegetation types to quantify impacts of homeowner landscaping choices and characterized yard soils and their microbial communities. We found that yard soils were nutrient‐ and moisture‐enriched compared to an adjacent undeveloped ecosystem, and turfgrass was associated with higher levels of water and nitrogen. Despite high respiration rates, yard soils accumulated carbon and nitrogen over time. We conclude that suburban residential soils comprise dynamic and heterogeneous ecosystems that are highly influenced by landscaping choices and management practices, and warrant closer study at small management‐relevant scales.

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Characterizing suburban soil and microbial properties along a soil age chronosequence

Suratt,

Behl,

Hong

et al. 2024

Ecosphere

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Fertilizer management approaches influence nutrient leaching from residential landscapes

Reisinger,

Bean,

Clark

et al. 2024

J of Env Quality

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Residential lawn management often includes fertilizer application to encourage healthy plant growth and support the aesthetic preferences of homeowners and communities. These inputs may negatively impact the environment by increasing nutrient export to aquatic ecosystems via surface runoff or leaching through soil into groundwater. Fertilizer management and nutrient export are of particular concern in karst areas like North‐Central Florida, where the underlying karst geology leads to rapid, direct connections between surface and groundwater ecosystems. We quantified nitrogen (N) and phosphorus (P) leaching from residential landscapes in North‐Central Florida. We investigated nutrient leaching from landscapes spanning a real estate gradient and across different fertility treatments (no N fertilizer, synthetic mineral fertilizer, biosolids‐based organic mineral fertilizer, compost topdressing, natural areas). We measured leachate from these landscapes weekly for 1 year. All residential landscapes, including control yards that received no N fertilizer, leached >10x more nitrate than natural areas, and landscapes treated with synthetic fertilizer exhibited an >80x increase in nitrate leaching. Fertilizer treatments also appeared to alter the N leaching composition, with a greater proportion of total dissolved N leaching coming from nitrate in fertilized treatments (synthetic and organic) compared to natural, control, or compost‐treated landscapes. These results show that landscape management and human actions are important drivers of nutrient leaching in residential landscapes. While all residential lawns leached more N than natural areas, less leaching was associated with certain management approaches. When implemented at larger scales, these approaches may reduce the likelihood of negative impacts of residential landscapes on regional water quality.

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Hydro-bio-geo-socio-chemical interactions and the sustainability of residential landscapes

Cited by 2 publications

References 53 publications

Characterizing suburban soil and microbial properties along a soil age chronosequence

Characterizing suburban soil and microbial properties along a soil age chronosequence

Fertilizer management approaches influence nutrient leaching from residential landscapes

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