Nossas publicações

Erasmi S, Schucknecht A, Barbosa MP, Matschullat J (2014) Vegetation greenness in North-eastern Brazil and its relation to ENSO warm events. Remote Sensing 6, 4: 3041–3058; doi: 10.3390/rs50x000x → Abstract

Hänsel S, Monteiro Medeiros D, Matschullat J, Petta RA, de Mendonça Silva I (2016) Assessing homogeneity and climate variability of temperature and precipitation series in the capitals of north-eastern Brazil. Frontiers March 2016, 4: 29: 21 p.; http://dx.doi.org/10.3389/feart.2016.00029 (Open Access)

Matschullat J (2012) Life in extraordinary concentrations (a tribute to Peter Beuge). Environmental Sciences Europe (ESPR) 24:25; 7 p. (open access) doi: 10.1186/2190-4715-24-25 → Abstract

Matschullat J, da Silva J, Höfle S, Mello J, Melo Jr G, Plessow A, Reimann C (2012) A soil geochemical baseline for north-eastern Brazil. Geochem Explor Environ Anal 72, 3: 197–209 → Abstract

Matschullat J, von Fromm S, Becher J, Drauschke T, Schröder C, Zurba K, Medeiros Braga L, Monteiro Bezerra de Lima R, Coimbra Martins G (2017) Was hat Bodenatmung (CO₂, CH₄, N₂O) mit Landnutzung und Klima zu tun? Ein Beispiel aus dem Amazonasbecken. Forum der Geoökologie 28, 1:

Matschullat J, von Fromm S, Monteiro Bezerra Lima R (2016) Bodenatmung (CO₂, CH₄, N₂O), Landnutzung und Klima, Beispiel Amazonasbecken. In: Spänkuch D (Hrsg) Sitzungsberichte der Leibniz-Sozietät der Wissenschaften 129: 99-111

Oertel C, Matschullat J, Zimmermann F, Zurba K, Erasmi S (2016) Greenhouse gas emissions from soils – a review. Chem Erde – Geochem. 10.1016/j.chemer.2016.04.002 → Abstract (Acesso-aberto)

Schucknecht A, Matschullat J, Caritat P de, Melo G, Mello J, Plessow A, Silva, J da (2012) Pedogeochemistry in NE-Brazil, compared to Australia and Europe. STOTEN Aug 2012; doi 10.1016/j.scitotenv.2012.08.059 → Abstract

Outros publicações

• Ab’Sáber A (2009) Ecosystems of Brazil. Metalivros; 299 p.
• Bennema J (1966) Classification of Brazilian soils. Report to the Government of Brazil. FAO EPTA Report No. 2197. Rome
• Bezerra Mendonca JF (2010) Solo. Substrato da vida. 2nd ed. Embrapa Brasilia; 129 p.
• Burt R (ed. 2004) Soil survey laboratory methods manual. Soil Survey Investigations Report No. 42, Version 4.0. Lincoln, USA, Natural Resources Conservation Service
• Da Silva RC (2008) Geodiversidade do Brasil. Conhecer o passado para entender o presente e prever o future. CPRM; 264 p.
• Ellenberg H (1981) Desarrollar sin destruir. Respuestas de un ecólogo a 15 preguntas de agrónomos y planificadores bolivianos. Edición: Instituto de Ecología, UMSA, La Paz, y Centro Pedagógico y Cultural de Portales, Cochabamba; 55 p.
• Gonçalves dos Santos et al. (2006) Sistema Brasileiro de classificação de solos. 2nd ed, Embrapa Solos Rio de Janeiro; 306 p.
• Grabert H (1991) Der Amazonas. Geschichte und Probleme eines Stromgebietes zwischen Pazifik und Atlantik. Springer Verlag; 235 p.
• Hoorn C, Wesselingh F (eds; 2010) Amazonia: Landscape and species evolution. A look into the past. Wiley-Blackwell; 447 p.
• Lal R, Cerri CC, Bernoux M, Etchevers J, Cerri E (eds, 2006) Carbon sequestration in soils of Latin America. Haworth Press; 554 p.
• Migueis R (2011) Geografia do Amazonas. Valer Editora, Manaus; 144 p.
• Oliveira ML, Baccaro FB, Braga-Neto R, Magnusson WE (2011) Reserva Ducke. A biodiversidade Amazônica através de uma grade. Editora INPA; 166 p.
• Schobbenhaus C (2007) The GIS underpinned geological map of Brazil, 1:1 million scale. Z Dt Ges Geowiss 158, 1: 3–7
• Simielli ME (2006) Geoatlas. Editora ática; 168 p.
• Sioli H (1983) Amazonien. Grundlagen der Ökologie des größten tropischen Waldlandes. Naturwiss Rundschau 64 p.
• Sioli H (2007) Gelebtes, geliebtes Amazonien. Forschungsreisen im brasilianischen Regenwald zwischen 1940 und 1962. Ed. By Gerd Kohlhepp. Verlag Dr. Friedrich Pfeil, München; 228 p.
• Van Reeuwijk LP (2006) Procedures for soil analysis. 7th Edition. Technical Report 9. Wageningen, Netherlands, ISRIC – World Soil Information