Nitrogen and phosphorus limitation and the management of small productive lakes

Many inland waters are enriched with nutrients, causing deleterious effects to their ecology and the benefits they provide for society, but their effective management first requires identification of the nutrient(s) that limit algal production. Concentrations of nutrients and chlorophyll a (Chl-a) w...

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Bibliographic Details
Published inInland waters (Print) Vol. 10; no. 2; pp. 159 - 172
Main Authors Maberly, Stephen C., Pitt, Jo-Anne, Davies, P. Sian, Carvalho, Laurence
Format Journal Article
LanguageEnglish
Published London Taylor & Francis 02.04.2020
Subjects
Balance of nature
Biological production
Eutrophication
Freshwater
Lakes
Limiting factors
meres
Mineral nutrients
Nitrates
nutrient limitation
Phosphates
Phytoplankton
remediation
Trophic state
Water Framework Directive
UK, England, Cheshire
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Summary:Many inland waters are enriched with nutrients, causing deleterious effects to their ecology and the benefits they provide for society, but their effective management first requires identification of the nutrient(s) that limit algal production. Concentrations of nutrients and chlorophyll a (Chl-a) were used to assess nutrient limitation seasonally at 17 meres over 2 time periods: historic (2005-2009; 1995-1998 at one site) and contemporary (2014-2018). Different approaches were used to assess nutrient limitation because they reflect different aspects of nutrient availability and their conversion into biomass. In the historic period, 3 meres were phosphorus (P) limited, 3 nitrogen (N) limited, 5 co-limited; the remaining 6 meres were not nutrient limited. For this period, ecological status assessed using phytoplankton Chl-a was only at good or high ecological status (sensu the Water Framework Directive) at 2 sites. The contemporary period was slightly improved, with 4 sites at good status. At the sites that failed to meet good ecological status, the required reduction in P concentration was least in P-limited sites and, conversely, the reduction in N was least in N-limited sites, suggesting that remediation by nutrient reduction would be most efficient if it was targeted using site-specific information. Even in primarily P-limited sites, once input of P has been reduced, further ecological benefit of reducing N at targeted sites should be explored.
ISSN:2044-2041
2044-205X
DOI:10.1080/20442041.2020.1714384