Pantropical modelling of canopy functional traits using Sentinel-2 remote sensing data

Funding Information: This work is a product of the Global Ecosystems Monitoring (GEM) network (gem.tropicalforests.ox.ac.uk). J.A.G. was funded by the Natural Environment Research Council (NERC; NE/T011084/1 and NE/S011811/1) and the Netherlands Organisation for Scientific Research (NWO) under the Rubicon programme with project number 019.162LW.010. The traits field campaign was funded by a grant to Y.M. from the European Research Council (Advanced Grant GEM-TRAIT: 321131) under the European Union‘s Seventh Framework Programme (FP7/2007-2013), with additional support from NERC Grant NE/D014174/1 and NE/J022616/1 for traits work in Peru, NERC Grant ECOFOR (NE/K016385/1) for traits work in Santarem, NERC Grant BALI (NE/K016369/1) for plot and traits work in Malaysia and ERC Advanced Grant T-FORCES (291585) to Phillips for traits work in Australia. Plot setup in Ghana and Gabon were funded by a NERC Grant NE/I014705/1 and by the Royal Society-Leverhulme Africa Capacity Building Programme. The Malaysia campaign was also funded by NERC GrantNE/K016253/1. Plot inventories in Peru were supported by funding from the US National Science Foundation Long-Term Research in Environmental Biology program (LTREB; DEB 1754647) and the Gordon and Betty Moore Foundation Andes-Amazon Program. Plots inventories in Nova Xavantina (Brazil) were supported by the National Council for Scientific and Technological Development (CNPq), Long Term Ecological Research Program (PELD), Proc. 441244/2016-5, and the Foundation of Research Support of Mato Grosso (FAPEMAT), Project ReFlor, Proc. 589267/2016. During data collection, I.O. was supported by a Marie Curie Fellowship (FP7-PEOPLE-2012-IEF-327990). GEM trait data in Gabon was collected under authorisation to Y.M. and supported by the Gabon National Parks Agency. D.B. was funded by the Fondation Wiener-Anspach. W.D.K. acknowledges support from the Faculty Research Cluster ‘Global Ecology’ of the University of Amsterdam. M.S. was funded by a grant from the Ministry of Education, Youth and Sports of the Czech Republic (INTER-TRANSFER LTT19018). Y.M. is supported by the Jackson Foundation. We thank the two anonymous reviewers and Associate Editor G. Henebry for their insightful comments that helped improved this manuscript.Peer reviewedPostprin

A concentração de cloro em fôlhas de café

This paper describes the data obtained concerning the chloride concentration in coffee leaves. The application of potassium chloride furnished the following means: 843,3 ± 134,3; 4476,0 ± 356,4; 4812,0 ± 67 0,7 and 5149,0 ± 570,7 ppm of chloride, respectively, for the treatments K0 (no KC1 applied); K1(167 grams of KC1 or 100 grams of K2O); K2(335 grams of KC1 or 200 grams of K2O); and K3 (670 grams of KC1 or 400 grams of K2O). Symptoms of excess of chloride were not observed in this experiment.O presente trabalho relata os dados obtidos referentes à concentração de cloro em folhas de cafeeiro, adubado com cloreto de potássio. As folhas (3º ou 4º par) foram colhidas de diversos tratamentos de um experimento NPK + micronutrientes do tipo fatorial, que vem sendo conduzido pelo Instituto Agronômico em sua estação experimental em Campinas. Foram analisadas as folhas procedentes dos tratamentos: K0, isto é, tratamento em que não entrou o KC1; K1, isto é, tratamento em que entrou uma dose de potássio, 100 g de K2O, na forma de KC1; K2, isto é, 200 g de K2O na forma de KC1; e K3, isto é, 400 g de K2O. Os resultados obtidos confirmaram o elevado teor de cloro, já assinalado em trabalhos anteriores, acusando uma variação de 709 a 1112 ppm, com a média de 843,3 ± 134,3 ppm de cloro nas folhas procedentes dos canteiros do tratamento K0; uma variação de 3938 a 5149 ppm, com a média de 4476,0 ± 356,4 ppm de cloro nas folhas do tratamento K1 (100g de K 0); uma variação de 2726 a 6763 ppm, com a média de 4812,0 ± 670,7 ppm de cloro nas fôlhas do tratamento K2 (200 g de K 0); e uma variação de 4341 a 7974 ppm, com a média de 5149,0 ± 570,7 ppm de cloro, nas fôlhas do tratamento K3 (400 g de K2O). Outros trabalhos estão sendo conduzidos com o objetivo de estudar a variação do teor de cloro nas folhas do cafeeiro, relacionando-a com outros fatores