Contenido principal
Ir al contenido principal
Menú de navegación
No hay
Navegación secundaria
disponible para el sitio actual.
Selector de idioma
Es
En
Español
English
Cerrar
Nuestros investigadores
Menú de navegación
No hay
Navegación secundaria
disponible para el sitio actual.
Menú de navegación
No hay
Navegación secundaria
disponible para el sitio actual.
Nuestros investigadores
Cerrar
Ruta de navegación
Estás en:
Investigacion
Nuestros investigadores
Publicaciones de nuestros investigadores
Publicaciones de nuestros investigadores - Investigacion
Detalle Publicación
Relationship between site-specific nitrogen concentrations in mosses and measured wet bulk atmospheric nitrogen deposition across Europe
Autores:
Harmens, H.; Schnyder, E.; Thöni, L.; Cooper, D.M.; Mills, G.; Leblond, S.; Mohr, K.; Poikolainen, J.;
Santamaría Ulecia, Jesús Miguel
; Skudnik, M.; Zechmeister, H.G.; Lindroos, A.J.; Hanus-Illnar, A.
Título de la revista:
ENVIRONMENTAL POLLUTION
ISSN:
0269-7491
Volumen:
194
Páginas:
50 - 59
Fecha de publicación:
2014
Resumen:
To assess the relationship between nitrogen concentrations in mosses and wet bulk nitrogen deposition or concentrations in precipitation, moss tissue and deposition were sampled within a distance of 1 km of each other in seven European countries. Relationships for various forms of nitrogen appeared to be asymptotic, with data for different countries being positioned at different locations along the asymptotic relationship and saturation occurring at a wet bulk nitrogen deposition of ca. 20 kg N ha(-1) yr(-1). The asymptotic behaviour was more pronounced for ammonium-N than nitrate-N, with high ammonium deposition at German sites being most influential in providing evidence of the asymptotic behaviour. Within countries, relationships were only significant for Finland and Switzerland and were more or less linear. The results confirm previous relationships described for modelled total deposition. Nitrogen concentration in mosses can be applied to identify areas at risk of high nitrogen deposition at European scale.
DOI:
https://doi.org/10.1016/j.envpol.2014.07.016
Impacto:
52 citas en
Google Scholar
Oculto