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- Title
A cross-scale view of N and P limitation using a Bayesian hierarchical model.
- Authors
Cha, YoonKyung; Alameddine, Ibrahim; Qian, Song S.; Stow, Craig A.
- Abstract
We propose a bivariate Bayesian hierarchical model (BBHM), which adds a perspective on a century-long subject of research, nitrogen (N) and phosphorus (P) dynamics in freshwater and coastal marine ecosystems. The BBHM is differentiated from existing approaches by modeling multiple aspects of N-P relationships-N and P concentration variability, ratio, and correlation-simultaneously, allowing these aspects to vary by seasonal and/or spatial components. The BBHM is applied to three aquatic systems, Finnish Lakes, Saginaw Bay, and the Neuse Estuary, which exhibit differing landscapes and complexity of nutrient dynamics. Our model reveals N and P dynamics that are critical to inferring unknown N and P distributions for the overall system as well as for within system variability. For Finnish lakes, strong positive within- and among-lake N and P correlations indicate that the rates of N and P biogeochemical cycles are closely coupled during summer across the different lake categories. In contrast, seasonal decoupling between N and P cycles in Saginaw Bay is evidenced by the large variability in monthly correlations and the seasonal changes in the N distribution. The results underscore the pivotal role that dreissenids have had on the cycling of nutrients and resurgence of eutrophication. The presence of clear seasonality and a spatial gradient in the distributions and N and P in the Neuse Estuary suggest that riverine N input is an important source in the season-space N dynamics, while summer sediment release is a major process regulating seasonal P distribution.
- Subjects
SAGINAW Bay (Mich.); PHOSPHORUS cycle (Biogeochemistry); NITROGEN cycle; EUTROPHICATION control; BAYESIAN analysis; NITROGEN in water; PHOSPHORUS in water; ESTUARIES
- Publication
Limnology & Oceanography, 2016, Vol 61, Issue 6, p2276
- ISSN
0024-3590
- Publication type
Article
- DOI
10.1002/lno.10375