Paper
Comparing the diversity and composition of waterbird functional traits between natural, restored, and artificial wetlands.Freshwater Biology65(12): 2196-2210.DOI 10.1111/fwb.13618Almeida, B.A.; Almeida, B.A.; Sebastián-González, E.; dos Anjos, L.; Green, A.J.
2020
Paper
Effect of acute exposure of Hg and Zn on survival of native and invasive Artemia from wild populations exposed to different degrees of environmental contamination.Ecological Indicators118: 106739.DOI 10.1016/j.ecolind.2020.106739Pais-Costa, A.J.; Sánchez, M.I.; Vieira, N.; Green, A.J.; Marques, J.C.; Martinez-Haro, M.
2020
Material
Endozoochory of the same community of plants lacking fleshy fruits by storks and gulls.vegsciblog.org; https://vegsciblog.org/2020/10/29/endozoochory-plants-lacking-fleshy-fruits/Martín-Velez, V.; Lovas-Kiss, A.; Sanchez, M.I.; Green, A.J.
2020
Paper
Agricultural and urban delivered nitrate pollution input to Mediterranean temporary freshwaters.Agriculture, Ecosystems and Environment294: 106859.DOI 10.1016/j.agee.2020.106859Paredes, I.; Otero, N.; Soler, A.; Green, A.J.; Soto, D.X.
2020
Paper
Seed mass, hardness, and phylogeny explain the potential for endozoochory by granivorous waterbirds.Ecology and Evolution10(3): 1413-1424.DOI 10.1002/ece3.5997Lovas-Kiss, Á.; Vincze, O.; Kleyheeg, E.; Sramkó, G.; Laczkó, L.; Fekete, R.; Molnár V., A.; Green, A.J.
2020
Paper
Editorial: Animal-Mediated Dispersal in Understudied Systems.Frontiers in ECOLOGY AND EVOLUTION7: 508.DOI 10.3389/fevo.2019.00508van Leeuwen, C.H.A.; Tella, J.L.; Green, A.J.
2020
PhD thesis
Presiones antrópicas y eutrofización en la marisma de Doñana y sus cuencas vertientes.Universidad de Sevilla: Departamento de Cristalografía Y Mineralogía (US)Paredes Losada, Irene
2020
Material
White-headed Duck (Oxyura leucocephala).Birds of the World; https://doi.org/10.2173/bow.whhduc1.02Salvador, A.; Amat, J.A.; Green, A.J.
2020
Paper
Rice Grain Cadmium Concentrations in the Global Supply-Chain.Exposure and Health12(4): 869-876.DOI 10.1007/s12403-020-00349-6Shi, Z.; Carey, M.; Meharg, C.; Williams, P.N.; Signes-Pastor, A.J.; Triwardhani, E.A.; Pandiangan, F.I.; Campbell, K.; Elliott, C.; Elliott, C.; Marwa, E.M.; Jiujin, X.; Farias, J.G.; Nicoloso, F.T.; De Silva, P.M.C.S.; Lu, Y.; Norton, G.; Adomako, E.; Green, A.J.; Moreno-Jiménez, E.; Zhu, Y.; Carbonell-Barrachina, Á.A.; Haris, P.I.; Lawgali, Y.F.; Sommella, A.; Pigna, M.; Brabet, C.; Montet, D.; Njira, K.; Watts, M.J.; Hossain, M.; Hossain, M.; Islam, M.R.; Tapia, Y.; Oporto, C.; Meharg, A.A.
2020
Material
Cómo las carpas pueden dispersarse a través de las aves acuáticas.La cuadratura del círculo; https://www.eldiario.es/andalucia/la-cuadratura-del-circulo/carpas-pueden-dispersarse-traves-acuaticas_132_6073803.htmlGreen, A.J.
2020
