Forging linkages between social drivers and ecological processes in the residential landscape

《Forging linkages between social drivers and ecological processes in the residential landscape》

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关键字: NITROGENOUS FERTILIZERS; KENTUCKY BLUEGRASS; RIVER PHOSPHORUS; FATE; LAWNS; RETENTION; IMPLEMENTATION; COMMUNITY; POLLUTION

作者单位: [Souto, Leesa A.] Florida Inst Technol, 150 W Univ Blvd, Melbourne, FL 32901 USA. [Souto, Leesa A.] Marine Resources Council East Florida Inc, 150 W Univ Blvd, Melbourne, FL 32901 USA. [Listopad, Claudia M. C. S.] Univ Lisbon, Fac Ciencias, Lisbon, Portugal. [Listopad, Claudia M. C. S.] Appl Ecol Inc, Indialantic, FL USA. [Bohlen, Patrick J.] Univ Cent Florida, Dept Landscape & Nat Resources LNR & Arboretum, Orlando, FL 32816 USA. Souto, LA (reprint author), Florida Inst Technol, 150 W Univ Blvd, Melbourne, FL 32901 USA.; Souto, LA (reprint author), Marine Resources Council East Florida Inc, 150 W Univ Blvd, Melbourne, FL 32901 USA. E-Mail: Leesa@mrcirl.org; cdlistopad@fc.ul.pt; Patrick.Bohlen@ucf.edu

摘要: Residential lawn fertilization is estimated to be the 2nd largest source of household nitrogen in the US causing environmental damage that may be irreversible unless alternative residential landscape practices are adopted in the future. Understanding residential landscape practices and the associated impact on water quality can inform the discourse on residential landscape reform and evaluate the effectiveness of strategies to reduce the impacts of residential landscapes. Our research collected residential awareness, knowledge and behavior data as well as stormwater and pond water nitrogen concentrations and loads in three counties where varying urban fertilizer ordinances were in place. We found that in the county with the strictest fertilizer control ordinance, residents were more aware of the ordinance and they were applying fertilizer less frequently. In the county with the least restrictive ordinance, residents were applying fertilizer more frequently and nitrogen loads were higher. We found seasonal variability associated with N source/sink dynamics that can confound N concentrations and loads. We conducted a power analysis to recommend monitoring needed to confidently measure a reduction in N concentrations in community stormwater and pond water. The results contribute to a critical missing gap of inter-disciplinary research to link a socio-political driver (fertilizer ordinance) to human behavior change and potential environmental effects.