Hydro-bio-geo-socio-chemical interactions and the sustainability of residential landscapes.
Peter M GroffmanAmanda K SuchyDexter H LockeRobert J JohnstonDavid A NewburnArthur J GoldLawrence E BandJonathan DuncanJ Morgan GroveJenny Kao-KniffinHallee MeltzerTom NdebeleJarlath O'Neil-DunneColin PolskyGrant L ThompsonHaoluan WangEwa ZawojskaPublished in: PNAS nexus (2023)
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 variation in the inherent vulnerability/sensitivity of individual parcels to cause environmental damage and in the knowledge and practices of individual managers. To the extent that hotspots are the result of management choices by homeowners, there are straightforward approaches to improve outcomes, e.g. fertilizer restrictions and incentives to reduce fertilizer use. If, however, hotspots arise from the configuration and inherent characteristics of parcels and neighborhoods, efforts to improve outcomes may involve more intensive and complex interventions, such as conversion to alternative ecosystem types.
Keyphrases
- life cycle
- human health
- climate change
- healthcare
- air pollution
- risk assessment
- public health
- primary care
- quality improvement
- physical activity
- oxidative stress
- sewage sludge
- molecular dynamics
- type diabetes
- adipose tissue
- insulin resistance
- metabolic syndrome
- heavy metals
- case control
- human immunodeficiency virus
- men who have sex with men
- anaerobic digestion