Skip to main content
ORNL DAAC HomeNASA Home

DAAC Home

Publications Citing Large Scale Biosphere-Atmosphere Experiment (LBA-ECO)

The following 217 publications cited the Large Scale Biosphere-Atmosphere Experiment (LBA-ECO) project.

YearCitationDataset or Project
2024Hastie, A., J.E. Householder, E.N. Honorio Coronado, C.G. Hidalgo Pizango, R. Herrera, O. Lähteenoja, J. de Jong, R.S. Winton, G.A. Aymard Corredor, J. Reyna, E. Montoya, S. Paukku, E.T.A. Mitchard, C.M. Åkesson, T.R. Baker, L.E.S. Cole, C.J. Córdova Oroche, N. Dávila, J.D. Águila, F.C. Draper, E. Fluet-Chouinard, J. Grández, J.P. Janovec, D. Reyna, M. W Tobler, D. Del Castillo Torres, K.H. Roucoux, C.E. Wheeler, M.T. Fernandez Piedade, J. Schöngart, F. Wittmann, M. van der Zon, and I.T. Lawson. 2024. A new data-driven map predicts substantial undocumented peatland areas in Amazonia. Environmental Research Letters. 19(9):094019. https://doi.org/10.1088/1748-9326/ad677b
2024Li, F., D.R. Chavas, B. Medeiros, K.A. Reed, and K.L. Rasmussen. 2024. Upstream surface roughness and terrain are strong drivers of contrast in tornado potential between North and South America. Proceedings of the National Academy of Sciences. 121(26). https://doi.org/10.1073/pnas.2315425121
2024Liu, J., K. Bowman, P.I. Palmer, J. Joiner, P. Levine, A.A. Bloom, L. Feng, S. Saatchi, M. Keller, M. Longo, D. Schimel, and P.O. Wennberg. 2024. Enhanced Carbon Flux Response to Atmospheric Aridity and Water Storage Deficit During the 2015–2016 El Niño Compromised Carbon Balance Recovery in Tropical South America. AGU Advances. 5(4). https://doi.org/10.1029/2024AV001187
2024Mupepi, O., T. Marambanyika, M.M. Matsa, and T. Dube. 2024. A systematic review on remote sensing of wetland environments. Transactions of the Royal Society of South Africa. 79(1):67-85. https://doi.org/10.1080/0035919X.2024.2322946
2023Nguyen, T. and F. Aires. 2023. A global topography- and hydrography-based floodability index for the downscaling, analysis, and data-fusion of surface water. Journal of Hydrology. 620:129406. https://doi.org/10.1016/j.jhydrol.2023.129406
2023Zhang, J., J. Wu, A.C. Hughes, J.O. Kaplan, and E.E. Maeda. 2023. Bio-geophysical feedback to climate caused by the conversion of Amazon Forest to soybean plantations. Science of The Total Environment. 905:166802. https://doi.org/10.1016/j.scitotenv.2023.166802
2022Arndt, I., S. Voigt, R. Petschick, A. Hou, J. Raddatz, A.L.S. Albuquerque, and A. Bahr. 2022. Spatiotemporal Discharge Variability of the Doce River in SE Brazil During MIS 6 and 5. Frontiers in Earth Science. 10. https://doi.org/10.3389/feart.2022.864381
2022Boulton, C.A., T.M. Lenton, and N. Boers. 2022. Pronounced loss of Amazon rainforest resilience since the early 2000s. Nature Climate Change. 12(3):271-278. https://doi.org/10.1038/s41558-022-01287-8
2022Correa, S.B., P. van der Sleen, S.F. Siddiqui, J.D. Bogota-Gregory, C.C. Arantes, A.A. Barnett, T.B.A. Couto, M. Goulding, and E.P. Anderson. 2022. Biotic Indicators for Ecological State Change in Amazonian Floodplains. BioScience. 72(8):753-768. https://doi.org/10.1093/biosci/biac038
2022Díaz, S., J. Kattge, J.H.C. Cornelissen, I.J. Wright, S. Lavorel, S. Dray, B. Reu, M. Kleyer, C. Wirth, I.C. Prentice, E. Garnier, G. Bönisch, M. Westoby, H. Poorter, P.B. Reich, A.T. Moles, J. Dickie, A.E. Zanne, J. Chave, S.J. Wright, S.N. Sheremetiev, H. Jactel, C. Baraloto, B.E.L. Cerabolini, S. Pierce, B. Shipley, F. Casanoves, J.S. Joswig, A. Günther, V. Falczuk, N. Rüger, M.D. Mahecha, L.D. Gorné, B. Amiaud, O.K. Atkin, M. Bahn, D. Baldocchi, M. Beckmann, B. Blonder, W. Bond, B. Bond-Lamberty, K. Brown, S. Burrascano, C. Byun, G. Campetella, J. Cavender-Bares, F.S. Chapin, B. Choat, D.A. Coomes, W.K. Cornwell, J. Craine, D. Craven, M. Dainese, A.C. de Araujo, F.T. de Vries, T.F. Domingues, B.J. Enquist, J. Fagúndez, J. Fang, F. Fernández-Méndez, M.T. Fernandez-Piedade, H. Ford, E. Forey, G.T. Freschet, S. Gachet, R. Gallagher, W. Green, G.R. Guerin, A.G. Gutiérrez, S.P. Harrison, W.N. Hattingh, T. He, T. Hickler, S.I. Higgins, P. Higuchi, J. Ilic, R.B. Jackson, A. Jalili, S. Jansen, F. Koike, C. König, N. Kraft, K. Kramer, H. Kreft, I. Kühn, H. Kurokawa, E.G. Lamb, D.C. Laughlin, M. Leishman, S. Lewis, F. Louault, A.C.M. Malhado, P. Manning, P. Meir, M. Mencuccini, J. Messier, R. Miller, V. Minden, J. Molofsky, R. Montgomery, G. Montserrat-Martí, M. Moretti, S. Müller, Ü. Niinemets, R. Ogaya, K. Öllerer, V. Onipchenko, Y. Onoda, W.A. Ozinga, J.G. Pausas, B. Peco, J. Penuelas, V.D. Pillar, C. Pladevall, C. Römermann, L. Sack, N. Salinas, B. Sandel, J. Sardans, B. Schamp, M. Scherer-Lorenzen, E. Schulze, F. Schweingruber, S. Shiodera, Ê. Sosinski, N. Soudzilovskaia, M.J. Spasojevic, E. Swaine, N. Swenson, S. Tautenhahn, K. Thompson, A. Totte, R. Urrutia-Jalabert, F. Valladares, P. van Bodegom, F. Vasseur, K. Verheyen, D. Vile, C. Violle, B. von Holle, P. Weigelt, E. Weiher, M.C. Wiemann, M. Williams, J. Wright, and G. Zotz. 2022. The global spectrum of plant form and function: enhanced species-level trait dataset. Scientific Data. 9(1). https://doi.org/10.1038/s41597-022-01774-9
2022Díaz, S., J. Kattge, J.H.C. Cornelissen, I.J. Wright, S. Lavorel, S. Dray, B. Reu, M. Kleyer, C. Wirth, I.C. Prentice, E. Garnier, G. Bönisch, M. Westoby, H. Poorter, P.B. Reich, A.T. Moles, J. Dickie, A.E. Zanne, J. Chave, S.J. Wright, S.N. Sheremetiev, H. Jactel, C. Baraloto, B.E.L. Cerabolini, S. Pierce, B. Shipley, F. Casanoves, J.S. Joswig, A. Günther, V. Falczuk, N. Rüger, M.D. Mahecha, L.D. Gorné, B. Amiaud, O.K. Atkin, M. Bahn, D. Baldocchi, M. Beckmann, B. Blonder, W. Bond, B. Bond-Lamberty, K. Brown, S. Burrascano, C. Byun, G. Campetella, J. Cavender-Bares, F.S. Chapin, B. Choat, D.A. Coomes, W.K. Cornwell, J. Craine, D. Craven, M. Dainese, A.C. de Araujo, F.T. de Vries, T.F. Domingues, B.J. Enquist, J. Fagúndez, J. Fang, F. Fernández-Méndez, M.T. Fernandez-Piedade, H. Ford, E. Forey, G.T. Freschet, S. Gachet, R. Gallagher, W. Green, G.R. Guerin, A.G. Gutiérrez, S.P. Harrison, W.N. Hattingh, T. He, T. Hickler, S.I. Higgins, P. Higuchi, J. Ilic, R.B. Jackson, A. Jalili, S. Jansen, F. Koike, C. König, N. Kraft, K. Kramer, H. Kreft, I. Kühn, H. Kurokawa, E.G. Lamb, D.C. Laughlin, M. Leishman, S. Lewis, F. Louault, A.C.M. Malhado, P. Manning, P. Meir, M. Mencuccini, J. Messier, R. Miller, V. Minden, J. Molofsky, R. Montgomery, G. Montserrat-Martí, M. Moretti, S. Müller, Ü. Niinemets, R. Ogaya, K. Öllerer, V. Onipchenko, Y. Onoda, W.A. Ozinga, J.G. Pausas, B. Peco, J. Penuelas, V.D. Pillar, C. Pladevall, C. Römermann, L. Sack, N. Salinas, B. Sandel, J. Sardans, B. Schamp, M. Scherer-Lorenzen, E. Schulze, F. Schweingruber, S. Shiodera, Ê. Sosinski, N. Soudzilovskaia, M.J. Spasojevic, E. Swaine, N. Swenson, S. Tautenhahn, K. Thompson, A. Totte, R. Urrutia-Jalabert, F. Valladares, P. van Bodegom, F. Vasseur, K. Verheyen, D. Vile, C. Violle, B. von Holle, P. Weigelt, E. Weiher, M.C. Wiemann, M. Williams, J. Wright, and G. Zotz. 2022. The global spectrum of plant form and function: enhanced species-level trait dataset. Scientific Data. 9(1). https://doi.org/10.1038/s41597-022-01774-9
2022Marca?Zevallos, M.J., G.M. Moulatlet, T.R. Sousa, J. Schietti, L.d.S. Coelho, J.F. Ramos, D.d.A. Lima Filho, I.L. Amaral, F.D. de Almeida Matos, L.M. Rincón, J.D. Cardenas Revilla, M.P. Pansonato, R. Gribel, E.M. Barbosa, I.P.d.A. Miranda, L.C.d.M. Bonates, J.E. Guevara, R.P. Salomão, L.V. Ferreira, D. Dantas do Amaral, N.C.A. Pitman, C. Vriesendorp, T.R. Baker, R. Brienen, M.d.J.V. Carim, J.R.d.S. Guimarães, P. Núñez Vargas, I. Huamantupa?Chuquimaco, W.F. Laurance, S.G.W. Laurance, A. Andrade, J.L. Camargo, A. Monteagudo Mendoza, R. Vasquez, L. Valenzuela Gamarra, H.F. Mogollón, B.H. Marimon?Junior, B.S. Marimon, T.J. Killeen, E.d.S. Farias, D. Neill, M.B. de Medeiros, M.F. Simon, J. Terborgh, J. Carlos Montero, J.C. Licona, B. Mostacedo, R. García?Villacorta, A. Araujo?Murakami, L. Arroyo, D. Villarroel, N. Dávila, F. Coelho de Souza, F.A. Carvalho, J.A. Comiskey, A. Alonso, F. Dallmeier, A.A. Oliveira, C.V. Castilho, J. Lloyd, T.R. Feldpausch, M. Ríos Paredes, N. Castaño Arboleda, D. Cárdenas López, G.A. Aymard Corredor, A. Di Fiore, A. Rudas, A. Prieto, F.R. Barbosa, J.C. Noronha, D.d.J. Rodrigues, R.d.S. Carpanedo, E.N. Honorio Coronado, C.A. Peres, W. Milliken, A. Fuentes, J.S. Tello, C. Cerón, B. Klitgaard, M. Tirado, R. Sierra, K.R. Young, G.F. Rivas?Torres, P.R. Stevenson, A. Cano, O. Wang, C. Baider, J. Barlow, J. Ferreira, E. Berenguer, J. Stropp, H. Balslev, M.A. Ahuite Reategui, I. Mesones, E.H. Valderrama Sandoval, T. Gonzales, S. Pansini, N.F.C. Reis, A.F. Sampaio, V.A. Vos, W. Palacios Cuenca, A.G. Manzatto, W. Farfan?Rios, M.R. Silman, K. Garcia?Cabrera, P. von Hildebrand, M.C. Guedes, J.B.P. Costa, J.F. Phillips, C.I.A. Vela, J.J. de Toledo, D. Pauletto, F.C. Valverde, M.N. Umaña, O.L. Phillips, W.E. Magnusson, H. ter Steege, and F.R.C. Costa. 2022. Local hydrological conditions influence tree diversity and composition across the Amazon basin. Ecography. https://doi.org/10.1111/ecog.06125
2022Pozzer, A., S.F. Reifenberg, V. Kumar, B. Franco, M. Kohl, D. Taraborrelli, S. Gromov, S. Ehrhart, P. Jöckel, R. Sander, V. Fall, S. Rosanka, V. Karydis, D. Akritidis, T. Emmerichs, M. Crippa, D. Guizzardi, J.W. Kaiser, L. Clarisse, A. Kiendler-Scharr, H. Tost, and A. Tsimpidi. 2022. Simulation of organics in the atmosphere: evaluation of EMACv2.54 with the Mainz Organic Mechanism (MOM) coupled to the ORACLE (v1.0) submodel. Geoscientific Model Development. 15(6):2673-2710. https://doi.org/10.5194/gmd-15-2673-2022
2022Ramos, C.S. and J.A.B. Tenório. 2022. Mineral nutrient content of soil and roots of Solanum paniculatum L. Agronomía Colombiana. 40(3):453-458. https://doi.org/10.15446/agron.colomb.v40n3.101989
2022Zuluaga, S., F.H. Vargas, R. Aráoz, and J.M. Grande. 2022. Main aerial top predator of the Andean Montane Forest copes with fragmentation, but may be paying a high cost. Global Ecology and Conservation. 37:e02174. https://doi.org/10.1016/j.gecco.2022.e02174
2021Arantes, C.C., L. Castello, X. Basurto, N. Angeli, A. Sene-Haper, and D.G. McGrath. 2021. Institutional effects on ecological outcomes of community-based management of fisheries in the Amazon. Ambio. https://doi.org/10.1007/s13280-021-01575-1
2021Dalagnol, R., F.H. Wagner, L.S. Galvao, A.S. Streher, O.L. Phillips, E. Gloor, T.A.M. Pugh, J.P.H.B. Ometto, and L.E.O.C. Aragao. 2021. Large-scale variations in the dynamics of Amazon forest canopy gaps from airborne lidar data and opportunities for tree mortality estimates. Scientific Reports. 11(1):. https://doi.org/10.1038/s41598-020-80809-w
2021Hashimoto, H., W. Wang, J.L. Dungan, S. Li, A.R. Michaelis, H. Takenaka, A. Higuchi, R.B. Myneni, and R.R. Nemani. 2021. New generation geostationary satellite observations support seasonality in greenness of the Amazon evergreen forests. Nature Communications. 12(1):. https://doi.org/10.1038/s41467-021-20994-y
2021Honorio Coronado, E.N., A. Hastie, J. Reyna, G. Flores, J. Grandez, O. Lahteenoja, F.C. Draper, C.M. Akesson, T.R. Baker, R.K. Bhomia, L.E.S. Cole, N. Davila, J. Del Aguila, M. Del Aguila, D. Del Castillo Torres, I.T. Lawson, M. Martin Branas, E.T.A. Mitchard, A. Monteagudo, O.L. Phillips, E. Ramirez, M. Rios, S. Rios, L. Rodriguez, K.H. Roucoux, X. Tagle Casapia, R. Vasquez, C.E. Wheeler, and M. Montoya. 2021. Intensive field sampling increases the known extent of carbon-rich Amazonian peatland pole forests. Environmental Research Letters. 16(7):074048. https://doi.org/10.1088/1748-9326/ac0e65
2021Joswig, J.S., C. Wirth, M.C. Schuman, J. Kattge, B. Reu, I.J. Wright, S.D. Sippel, N. Ruger, R. Richter, M.E. Schaepman, P.M. van Bodegom, J.H.C. Cornelissen, S. Diaz, W.N. Hattingh, K. Kramer, F. Lens, U. Niinemets, P.B. Reich, M. Reichstein, C. Romermann, F. Schrodt, M. Anand, M. Bahn, C. Byun, G. Campetella, B.E.L. Cerabolini, J.M. Craine, A. Gonzalez-Melo, A.G. Gutierrez, T. He, P. Higuchi, H. Jactel, N.J.B. Kraft, V. Minden, V. Onipchenko, J. Penuelas, V.D. Pillar, E. Sosinski, N.A. Soudzilovskaia, E. Weiher, and M.D. Mahecha. 2021. Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation. Nature Ecology & Evolution. 6(1):36-50. https://doi.org/10.1038/s41559-021-01616-8
2021Joswig, J.S., C. Wirth, M.C. Schuman, J. Kattge, B. Reu, I.J. Wright, S.D. Sippel, N. Ruger, R. Richter, M.E. Schaepman, P.M. van Bodegom, J.H.C. Cornelissen, S. Diaz, W.N. Hattingh, K. Kramer, F. Lens, U. Niinemets, P.B. Reich, M. Reichstein, C. Romermann, F. Schrodt, M. Anand, M. Bahn, C. Byun, G. Campetella, B.E.L. Cerabolini, J.M. Craine, A. Gonzalez-Melo, A.G. Gutierrez, T. He, P. Higuchi, H. Jactel, N.J.B. Kraft, V. Minden, V. Onipchenko, J. Penuelas, V.D. Pillar, E. Sosinski, N.A. Soudzilovskaia, E. Weiher, and M.D. Mahecha. 2021. Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation. Nature Ecology & Evolution. 6(1):36-50. https://doi.org/10.1038/s41559-021-01616-8
2021Melo, D.C.D., J.A.A. Anache, V.P. Borges, D.G. Miralles, B. Martens, J.B. Fisher, R.L.B. Nobrega, A. Moreno, O.M.R. Cabral, T.R. Rodrigues, B. Bezerra, C.M.S. Silva, A.A.M. Neto, M.S.B. Moura, T.V. Marques, S. Campos, J.S. Nogueira, R. Rosolem, R.M.S. Souza, A.C.D. Antonino, D. Holl, M. Galleguillos, J.F. Perez-Quezada, A. Verhoef, L. Kutzbach, J.R.S. Lima, E.S. Souza, M.I. Gassman, C.F. Perez, N. Tonti, G. Posse, D. Rains, P.T.S. Oliveira, and E. Wendland. 2021. Are Remote Sensing Evapotranspiration Models Reliable Across South American Ecoregions?. Water Resources Research. 57(11):. https://doi.org/10.1029/2020WR028752
2021Mendes, K.R., S. Campos, P.R. Mutti, R.R. Ferreira, T.M. Ramos, T.V. Marques, J.S. dos Reis, M.M. de Lima Vieira, A.C.N. Silva, A.M.S. Marques, D.T.C. da Silva, D.F. da Silva, C.P. Oliveira, W.A. Goncalves, G.B. Costa, M.F. Pompelli, R.A. Marenco, A.C.D. Antonino, R.S.C. Menezes, B.G. Bezerra, and C.M. Santos e Silva. 2021. Assessment of SITE for CO2 and Energy Fluxes Simulations in a Seasonally Dry Tropical Forest (Caatinga Ecosystem). Forests. 12(1):86. https://doi.org/10.3390/f12010086
2021Murugesan, K., P. Balasubramani, P.R. Murugan, and S. Sankaranarayanan. 2021. Color-based SAR image segmentation using HSV+FKM clustering for estimating the deforestation rate of LBA-ECO LC-14 modeled deforestation scenarios, Amazon basin: 2002-2050. Arabian Journal of Geosciences. 14(9):. https://doi.org/10.1007/s12517-021-07069-4
2021Pohl, M.J., L. Lehnert, M.Y. Bader, S.R. Gradstein, J. Viehweger, and J. Bendix. 2021. A new fog and low stratus retrieval for tropical South America reveals widespread fog in lowland forests. Remote Sensing of Environment. 264:112620. https://doi.org/10.1016/j.rse.2021.112620
2021Restrepo-Coupe, N., L.P. Albert, M. Longo, I. Baker, N.M. Levine, L.M. Mercado, A.C. Araujo, B.O.D. Christoffersen, M.H. Costa, D.R. Fitzjarrald, D. Galbraith, H. Imbuzeiro, Y. Malhi, C. Randow, X. Zeng, P. Moorcroft, and S.R. Saleska. 2021. Understanding water and energy fluxes in the Amazonia: Lessons from an observation-model intercomparison. Global Change Biology. https://doi.org/10.1111/gcb.15555
2021Sakschewski, B., W. von Bloh, M. Druke, A.A. Sorensson, R. Ruscica, F. Langerwisch, M. Billing, S. Bereswill, M. Hirota, R.S. Oliveira, J. Heinke, and K. Thonicke. 2021. Variable tree rooting strategies are key for modelling the distribution, productivity and evapotranspiration of tropical evergreen forests. Biogeosciences. 18(13):4091-4116. https://doi.org/10.5194/bg-18-4091-2021
2021Santamaria-Artigas, A., E.F. Vermote, B. Franch, J.C. Roger, and S. Skakun. 2021. Evaluation of the AVHRR surface reflectance long term data record between 1984 and 2011. International Journal of Applied Earth Observation and Geoinformation. 98:102317. https://doi.org/10.1016/j.jag.2021.102317
2021Uribe, M.d.R. and J.S. Dukes. 2021. Land cover change alters seasonal photosynthetic activity and transpiration of Amazon forest and Cerrado. Environmental Research Letters. 16(5):054013. https://doi.org/10.1088/1748-9326/abf60d
2020De Sales, F., T. Santiago, T.W. Biggs, K. Mullan, E.O. Sills, and C. Monteverde. 2020. Impacts of Protected Area Deforestation on Dry-Season Regional Climate in the Brazilian Amazon. Journal of Geophysical Research: Atmospheres. 125(16):. https://doi.org/10.1029/2020JD033048
2020Gorné, L.D., S. Díaz, V. Minden, Y. Onoda, K. Kramer, C. Muir, S.T. Michaletz, S. Lavorel, J. Sharpe, S. Jansen, M. Slot, E. Chacon, and G. Boenisch. 2020. The acquisitive–conservative axis of leaf trait variation emerges even in homogeneous environments. Annals of Botany. 129(6):709-722. https://doi.org/10.1093/aob/mcaa198
2020Kosten, dr. S.; Mendona, dr. R.; Abe, dr. D.S.; Nes, dr. ir. E.H. van; Roland, F.; Huszar, V.L.M.Mapping variability in CO2 saturation in Amazonian rivers reveals undersaturated areas. Data Archiving and Networked Services. https://doi.org/10.17026/dans-zmd-stsg
2020Laipelt, L., A.L. Ruhoff, A.S. Fleischmann, R.H.B. Kayser, E.d.M. Kich, H.R. da Rocha, and C.M.U. Neale. 2020. Assessment of an Automated Calibration of the SEBAL Algorithm to Estimate Dry-Season Surface-Energy Partitioning in a Forest-Savanna Transition in Brazil. Remote Sensing. 12(7):1108. https://doi.org/10.3390/rs12071108
2020Laugie, M., Y. Donnadieu, J.B. Ladant, J.A.M. Green, L. Bopp, and F. Raisson. 2020. Stripping back the modern to reveal the Cenomanian-Turonian climate and temperature gradient underneath. Climate of the Past. 16(3):953-971. https://doi.org/10.5194/cp-16-953-2020
2020Perdigao, C.R.V., M.M.B. Junior, T.A.P. Goncalves, C.d.S. Araujo, F.A. Mori, A.C.M.C. Barbosa, F.I.B. de Souza, J.P. Motta, and L.E.d.L. Melo. 2020. Forestry control in the Brazilian Amazon I: wood and charcoal anatomy of three endangered species. IAWA Journal. 41(4):490-509. https://doi.org/10.1163/22941932-bja10016
2020Pereira, G.H.A., V.F.V. Silva, R. Camara, V.A. Freo, and M.G. Pereira. 2020. Artificial flooding changes soil chemistry and carbon dynamics in upland forests next to hydropower plant in Amazon basin. Environment, Development and Sustainability. https://doi.org/10.1007/s10668-020-00931-7
2020Rios-Villamizar, E.A., J.M. Adeney, M.T.F. Piedade, and W.J. Junk. 2020. New insights on the classification of major Amazonian river water types. Sustainable Water Resources Management. 6(5):. https://doi.org/10.1007/s40899-020-00440-5
2020Rios-Villamizar, E.A., J.M. Adeney, W.J. Junk, and M.T.F. Piedade. 2020. Physicochemical features of Amazonian water typologies for water resources management. IOP Conference Series: Earth and Environmental Science. 427:012003. https://doi.org/10.1088/1755-1315/427/1/012003
2020Seyednasrollah, B. and J.S. Clark. 2020. Where Resource-Acquisitive Species Are Located: The Role of Habitat Heterogeneity. Geophysical Research Letters. 47(8):. https://doi.org/10.1029/2020GL087626
2020Villamizar, E.A.R., J.M. Adeney, M.T.F. Piedade, and W.J. Junk. 2020. HYDROCHEMICAL CLASSIFICATION OF AMAZONIAN RIVERS: A SYSTEMATIC REVIEW AND META-ANALYSIS . Caminhos de Geografia. 21(78):211-226. https://doi.org/10.14393/RCG217853272
2019Abe, C.A., F.L. Lobo, E.M.L.d.M. Novo, M. Costa, and Y. Dibike. 2019. Modeling the effects of land cover change on sediment concentrations in a gold-mined Amazonian basin. Regional Environmental Change. 19(6):1801-1813. https://doi.org/10.1007/s10113-019-01513-8
2019Abe, C.A., F.L. Lobo, E.M.L.d.M. Novo, M. Costa, and Y. Dibike. 2019. Modeling the effects of land cover change on sediment concentrations in a gold-mined Amazonian basin. Regional Environmental Change. 19(6):1801-1813. https://doi.org/10.1007/s10113-019-01513-8
2019Abe, C.A., F.L. Lobo, E.M.L.d.M. Novo, M. Costa, and Y. Dibike. 2019. Modeling the effects of land cover change on sediment concentrations in a gold-mined Amazonian basin. Regional Environmental Change. 19(6):1801-1813. https://doi.org/10.1007/s10113-019-01513-8
2019Antunes, A.C., F. Baccaro, V.L. Caetano Andrade, J.F. Ramos, R. Da Silva Moreira, and A.A. Barnett. 2019. Igapo seed patches: a potentially key resource for terrestrial vertebrates in a seasonally flooded forest of central Amazonia. Biological Journal of the Linnean Society. https://doi.org/10.1093/biolinnean/blz101
2019Coppola, A.I., M. Seidel, N.D. Ward, D. Viviroli, G.S. Nascimento, N. Haghipour, B.N. Revels, S. Abiven, M.W. Jones, J.E. Richey, T.I. Eglinton, T. Dittmar, and M.W.I. Schmidt. 2019. Marked isotopic variability within and between the Amazon River and marine dissolved black carbon pools. Nature Communications. 10(1):. https://doi.org/10.1038/s41467-019-11543-9
2019Flores-Moreno, H., F. Fazayeli, A. Banerjee, A. Datta, J. Kattge, E.E. Butler, O.K. Atkin, K. Wythers, M. Chen, M. Anand, M. Bahn, C. Byun, J.H.C. Cornelissen, J. Craine, A. Gonzalez-Melo, W.N. Hattingh, S. Jansen, N.J.B. Kraft, K. Kramer, D.C. Laughlin, V. Minden, U. Niinemets, V. Onipchenko, J. Penuelas, N.A. Soudzilovskaia, R.L. Dalrymple, and P.B. Reich. 2019. Robustness of trait connections across environmental gradients and growth forms. Global Ecology and Biogeography. 28(12):1806-1826. https://doi.org/10.1111/geb.12996
2019Gomis-Cebolla, J., J.C. Jimenez, J.A. Sobrino, C. Corbari, and M. Mancini. 2019. Intercomparison of remote-sensing based evapotranspiration algorithms over amazonian forests. International Journal of Applied Earth Observation and Geoinformation. 80:280-294. https://doi.org/10.1016/j.jag.2019.04.009
2019Hastie, A., R. Lauerwald, P. Ciais, and P. Regnier. 2019. Aquatic carbon fluxes dampen the overall variation of net ecosystem productivity in the Amazon basin: An analysis of the interannual variability in the boundless carbon cycle. Global Change Biology. 25(6):2094-2111. https://doi.org/10.1111/gcb.14620
2019Hastie, A., R. Lauerwald, P. Ciais, and P. Regnier. 2019. Aquatic carbon fluxes dampen the overall variation of net ecosystem productivity in the Amazon basin: An analysis of the interannual variability in the boundless carbon cycle. Global Change Biology. 25(6):2094-2111. https://doi.org/10.1111/gcb.14620
2019Hastie, A., R. Lauerwald, P. Ciais, and P. Regnier. 2019. Aquatic carbon fluxes dampen the overall variation of net ecosystem productivity in the Amazon basin: An analysis of the interannual variability in the boundless carbon cycle. Global Change Biology. 25(6):2094-2111. https://doi.org/10.1111/gcb.14620
2019Haynes, K.D., I.T. Baker, A.S. Denning, S. Wolf, G. Wohlfahrt, G. Kiely, R.C. Minaya, and J.M. Haynes. 2019. Representing Grasslands Using Dynamic Prognostic Phenology Based on Biological Growth Stages: Part 2. Carbon Cycling. Journal of Advances in Modeling Earth Systems. 11(12):4440-4465. https://doi.org/10.1029/2018MS001541
2019Kivalov, S.N. and D.R. Fitzjarrald. 2019. Observing the Whole-Canopy Short-Term Dynamic Response to Natural Step Changes in Incident Light: Characteristics of Tropical and Temperate Forests. Boundary-Layer Meteorology. 173(1):1-52. https://doi.org/10.1007/s10546-019-00460-5
2019Longo, M., R.G. Knox, N.M. Levine, A.L.S. Swann, D.M. Medvigy, M.C. Dietze, Y. Kim, K. Zhang, D. Bonal, B. Burban, P.B. Camargo, M.N. Hayek, S.R. Saleska, R. da Silva, R.L. Bras, S.C. Wofsy, and P.R. Moorcroft. 2019. The biophysics, ecology, and biogeochemistry of functionally diverse, vertically and horizontally heterogeneous ecosystems: the Ecosystem Demography model, version 2.2 - Part 2: Model evaluation for tropical South America. Geoscientific Model Development. 12(10):4347-4374. https://doi.org/10.5194/gmd-12-4347-2019
2019Longo, M., R.G. Knox, N.M. Levine, A.L.S. Swann, D.M. Medvigy, M.C. Dietze, Y. Kim, K. Zhang, D. Bonal, B. Burban, P.B. Camargo, M.N. Hayek, S.R. Saleska, R. da Silva, R.L. Bras, S.C. Wofsy, and P.R. Moorcroft. 2019. The biophysics, ecology, and biogeochemistry of functionally diverse, vertically and horizontally heterogeneous ecosystems: the Ecosystem Demography model, version 2.2 - Part 2: Model evaluation for tropical South America. Geoscientific Model Development. 12(10):4347-4374. https://doi.org/10.5194/gmd-12-4347-2019
2019Longo, M., R.G. Knox, N.M. Levine, A.L.S. Swann, D.M. Medvigy, M.C. Dietze, Y. Kim, K. Zhang, D. Bonal, B. Burban, P.B. Camargo, M.N. Hayek, S.R. Saleska, R. da Silva, R.L. Bras, S.C. Wofsy, and P.R. Moorcroft. 2019. The biophysics, ecology, and biogeochemistry of functionally diverse, vertically and horizontally heterogeneous ecosystems: the Ecosystem Demography model, version 2.2 - Part 2: Model evaluation for tropical South America. Geoscientific Model Development. 12(10):4347-4374. https://doi.org/10.5194/gmd-12-4347-2019
2019Mao, G. and J. Liu. 2019. WAYS v1: a hydrological model for root zone water storage simulation on a global scale. Geoscientific Model Development. 12(12):5267-5289. https://doi.org/10.5194/gmd-12-5267-2019
2019Pohlker, C., D. Walter, H. Paulsen, T. Konemann, E. Rodriguez-Caballero, D. Moran-Zuloaga, J. Brito, S. Carbone, C. Degrendele, V.R. Despres, F. Ditas, B.A. Holanda, J.W. Kaiser, G. Lammel, J.V. Lavric, J. Ming, D. Pickersgill, M.L. Pohlker, M. Prass, N. Lobs, J. Saturno, M. Sorgel, Q. Wang, B. Weber, S. Wolff, P. Artaxo, U. Poschl, and M.O. Andreae. 2019. Land cover and its transformation in the backward trajectory footprint region of the Amazon Tall Tower Observatory. Atmospheric Chemistry and Physics. 19(13):8425-8470. https://doi.org/10.5194/acp-19-8425-2019
2019Prestes-Carneiro, G., P. Bearez, M.P. Shock, H. Prumers, and C. Jaimes Betancourt. 2019. Pre-Hispanic fishing practices in interfluvial Amazonia: Zooarchaeological evidence from managed landscapes on the Llanos de Mojos savanna. PLOS ONE. 14(5):e0214638. https://doi.org/10.1371/journal.pone.0214638
2019Rudke, A.P., T. Fujita, D.S.d. Almeida, M.M. Eiras, A.C.F. Xavier, S.A.A. Rafee, E.B. Santos, M.V.B.d. Morais, L.D. Martins, R.V.A.d. Souza, R.A.F. Souza, R. Hallak, E.D.d. Freitas, C.B. Uvo, and J.A. Martins. 2019. Land cover data of Upper Parana River Basin, South America, at high spatial resolution. International Journal of Applied Earth Observation and Geoinformation. 83:101926. https://doi.org/10.1016/j.jag.2019.101926
2019Santamaria-Artigas, A., B. Franch, J.C. Roger, E. Vermote, and C. Justice. 2019. Evaluation of the Surface Reflectance Long-Term Data Record from AVHRR over Multiple Land Surface Types. 8830-8833. https://doi.org/10.1109/IGARSS.2019.8898536
2019Zeni, J.O., M.A. Perez-Mayorga, C.A. Roa-Fuentes, G.L. Brejao, and L. Casatti. 2019. How deforestation drives stream habitat changes and the functional structure of fish assemblages in different tropical regions. Aquatic Conservation: Marine and Freshwater Ecosystems. 29(8):1238-1252. https://doi.org/10.1002/aqc.3128
2018Abe, C., F. Lobo, Y. Dibike, M. Costa, V. Dos Santos, and E. Novo. 2018. Modelling the Effects of Historical and Future Land Cover Changes on the Hydrology of an Amazonian Basin. Water. 10(7):932. https://doi.org/10.3390/w10070932
2018Abe, C., F. Lobo, Y. Dibike, M. Costa, V. Dos Santos, and E. Novo. 2018. Modelling the Effects of Historical and Future Land Cover Changes on the Hydrology of an Amazonian Basin. Water. 10(7):932. https://doi.org/10.3390/w10070932
2018Abe, C., F. Lobo, Y. Dibike, M. Costa, V. Dos Santos, and E. Novo. 2018. Modelling the Effects of Historical and Future Land Cover Changes on the Hydrology of an Amazonian Basin. Water. 10(7):932. https://doi.org/10.3390/w10070932
2018Bax, V. and W. Francesconi. 2018. Environmental predictors of forest change: An analysis of natural predisposition to deforestation in the tropical Andes region, Peru. Applied Geography. 91:99-110. https://doi.org/10.1016/j.apgeog.2018.01.002
2018Bayley, P.B., L. Castello, V.S. Batista, and N.N. Fabre. 2018. Response of Prochilodus nigricans to flood pulse variation in the central Amazon . Royal Society Open Science. 5(6):172232. https://doi.org/10.1098/rsos.172232
2018Castello, L., L.L. Hess, R. Thapa, D.G. McGrath, C.C. Arantes, V.F. Reno, and V.J. Isaac. 2018. Fishery yields vary with land cover on the Amazon River floodplain. Fish and Fisheries. 19(3):431-440. https://doi.org/10.1111/faf.12261
2018Cook, R.B., Y. Wei, L.A. Hook, S.K.S. Vannan, and J.J. McNelis 2018. Preserve: Protecting Data for Long-Term Use. Ecological Informatics.
2018Dos Santos, V., F. Laurent, C. Abe, and F. Messner. 2018. Hydrologic Response to Land Use Change in a Large Basin in Eastern Amazon. Water. 10(4):429. https://doi.org/10.3390/w10040429
2018Dos Santos, V., F. Laurent, C. Abe, and F. Messner. 2018. Hydrologic Response to Land Use Change in a Large Basin in Eastern Amazon. Water. 10(4):429. https://doi.org/10.3390/w10040429
2018Dos Santos, V., F. Laurent, C. Abe, and F. Messner. 2018. Hydrologic Response to Land Use Change in a Large Basin in Eastern Amazon. Water. 10(4):429. https://doi.org/10.3390/w10040429
2018Dos Santos, V., F. Laurent, C. Abe, and F. Messner. 2018. Hydrologic Response to Land Use Change in a Large Basin in Eastern Amazon. Water. 10(4):429. https://doi.org/10.3390/w10040429
2018Dos Santos, V., F. Laurent, C. Abe, and F. Messner. 2018. Hydrologic Response to Land Use Change in a Large Basin in Eastern Amazon. Water. 10(4):429. https://doi.org/10.3390/w10040429
2018Hashemi, S., Y. Filion, and V. Speight. 2018. Identification of Factors That Influence Energy Performance in Water Distribution System Mains. Water. 10(4):428. https://doi.org/10.3390/w10040428
2018Hughes, J.M.R., B.R. Clarkson, A.T. Castro-Castellon, and L.L. Hess. 2018. Wetland Plants and Aquatic Macrophytes. 173-207. https://doi.org/10.1093/oso/9780198766384.003.0009
2018Khanna, J., D. Medvigy, G. Fisch, and T.T. de Araujo Tiburtino Neves. 2018. Regional Hydroclimatic Variability Due To Contemporary Deforestation in Southern Amazonia and Associated Boundary Layer Characteristics. Journal of Geophysical Research: Atmospheres. 123(8):3993-4014. https://doi.org/10.1002/2017JD027888
2018Li, M., Z. Liu, and Y. Chen. 2018. Physico-chemical Characteristics of Corrosion Scales from Different Pipes in Drinking Water Distribution Systems. Water. 10(7):931. https://doi.org/10.3390/w10070931
2018Liu, L., Q. Zhuang, Q. Zhu, S. Liu, H. van Asperen, and M. Pihlatie. 2018. Global soil consumption of atmospheric carbon monoxide: an analysis using a process-based biogeochemistry model. Atmospheric Chemistry and Physics. 18(11):7913-7931. https://doi.org/10.5194/acp-18-7913-2018
2018Luize, B.G., J.L.L. Magalhaes, H. Queiroz, M.A. Lopes, E.M. Venticinque, E.M. Leao de Moraes Novo, and T.S.F. Silva. 2018. The tree species pool of Amazonian wetland forests: Which species can assemble in periodically waterlogged habitats?. PLOS ONE. 13(5):e0198130. https://doi.org/10.1371/journal.pone.0198130
2018Muscarella, R., C.D. Bacon, S. Faurby, A. Antonelli, S.M. Kristiansen, J.C. Svenning, and H. Balslev. 2018. Soil fertility and flood regime are correlated with phylogenetic structure of Amazonian palm communities . Annals of Botany. https://doi.org/10.1093/aob/mcy196
2018Recio Villa, I., J. Martinez Rodriguez, J.L. Molina, and J. Pino Tarrago. 2018. Multiobjective Optimization Modeling Approach for Multipurpose Single Reservoir Operation. Water. 10(4):427. https://doi.org/10.3390/w10040427
2018Simmons, C.S., R. Walker, S. Aldrich, E. Arima, R. Pereira, E.M.R.d. Castro, F. Michelotti, M. Waylen, and A. Antunes. 2018. Discipline and Develop: Destruction of the Brazil Nut Forest in the Lower Amazon Basin. Annals of the American Association of Geographers. 109(1):242-265. https://doi.org/10.1080/24694452.2018.1489215
2018Spracklen, D.V., J.C.A. Baker, L. Garcia-Carreras, and J.H. Marsham. 2018. The Effects of Tropical Vegetation on Rainfall. Annual Review of Environment and Resources. 43(1):193-218. https://doi.org/10.1146/annurev-environ-102017-030136
2018Voegeli, G., L. Gaudard, F. Romerio, and W. Hediger. 2018. Framework for Decision-Making Process in Granting Rights to Use Hydropower in the European Context. Water. 10(7):930. https://doi.org/10.3390/w10070930
2018Zhang, H., F. Zhang, and J. Song. 2018. Analysis of Hydrochemical Characteristics and Three-Dimensional Fluorescence Spectra in the Semi-Arid Ebinur Lake Watershed, Xinjiang, China. Water. 10(4):426. https://doi.org/10.3390/w10040426
2018Zhang, H., G. Jin, and Y. Yu. 2018. Review of River Basin Water Resource Management in China. Water. 10(4):425. https://doi.org/10.3390/w10040425
2017Barbosa, R.I., C.V. de Castilho, R. de Oliveira Perdiz, G. Damasco, R. Rodrigues, and P.M. Fearnside. 2017. Decomposition rates of coarse woody debris in undisturbed Amazonian seasonally flooded and unflooded forests in the Rio Negro-Rio Branco Basin in Roraima, Brazil. Forest Ecology and Management. 397:1-9. https://doi.org/10.1016/j.foreco.2017.04.026
2017de Oliveira, G., N.A. Brunsell, E.C. Moraes, Y.E. Shimabukuro, G. Bertani, T.V. dos Santos, and L.E.O.C. Aragao. 2017. Evaluation of MODIS-based estimates of water-use efficiency in Amazonia. International Journal of Remote Sensing. 38(19):5291-5309. https://doi.org/10.1080/01431161.2017.1339924
2017de Oliveira, G., N.A. Brunsell, E.C. Moraes, Y.E. Shimabukuro, G. Bertani, T.V. dos Santos, and L.E.O.C. Aragao. 2017. Evaluation of MODIS-based estimates of water-use efficiency in Amazonia. International Journal of Remote Sensing. 38(19):5291-5309. https://doi.org/10.1080/01431161.2017.1339924
2017de Oliveira, G., N.A. Brunsell, E.C. Moraes, Y.E. Shimabukuro, G. Bertani, T.V. dos Santos, and L.E.O.C. Aragao. 2017. Evaluation of MODIS-based estimates of water-use efficiency in Amazonia. International Journal of Remote Sensing. 38(19):5291-5309. https://doi.org/10.1080/01431161.2017.1339924
2017Diego, R.d.A., C.d.O.J. Raimundo, P.B. Troy, d.S. Rodrigo, and T. Raphael. 2017. Evapotranspiration and control mechanisms in managed Amazonian forest in, Par, Brazil. African Journal of Agricultural Research. 12(18):1577-1586. https://doi.org/10.5897/AJAR2017.12146
2017Flores, B.M., M. Holmgren, C. Xu, E.H. van Nes, C.C. Jakovac, R.C.G. Mesquita, and M. Scheffer. 2017. Floodplains as an Achilles' heel of Amazonian forest resilience. Proceedings of the National Academy of Sciences. 114(17):4442-4446. https://doi.org/10.1073/pnas.1617988114
2017Forsberg, B.R., J.M. Melack, T. Dunne, R.B. Barthem, M. Goulding, R.C.D. Paiva, M.V. Sorribas, U.L. Silva, and S. Weisser. 2017. The potential impact of new Andean dams on Amazon fluvial ecosystems. PLOS ONE. 12(8):e0182254. https://doi.org/10.1371/journal.pone.0182254
2017Fricke, A.T., C.A. Nittrouer, A.S. Ogston, D.J. Nowacki, N.E. Asp, P.W.M. Souza Filho, M.S. da Silva, and A.M. Jalowska. 2017. River tributaries as sediment sinks: Processes operating where the Tapajos and Xingu rivers meet the Amazon tidal river. Sedimentology. 64(6):1731-1753. https://doi.org/10.1111/sed.12372
2017Furze, J.N., Q. Zhu, J. Hill, and F. Qiao. 2017. Biological Modelling for Sustainable Ecosystems. 9-42. https://doi.org/10.1007/978-3-319-43901-3_2
2017Grecchi, R.C., R. Beuchle, Y.E. Shimabukuro, L.E.O.C. Aragao, E. Arai, D. Simonetti, and F. Achard. 2017. An integrated remote sensing and GIS approach for monitoring areas affected by selective logging: A case study in northern Mato Grosso, Brazilian Amazon. International Journal of Applied Earth Observation and Geoinformation. 61:70-80. https://doi.org/10.1016/j.jag.2017.05.001
2017Harvey, M.G., A. Aleixo, C.C. Ribas, and R.T. Brumfield. 2017. Habitat Association Predicts Genetic Diversity and Population Divergence in Amazonian Birds. The American Naturalist. 190(5):631-648. https://doi.org/10.1086/693856
2017Hilker, T., L.S. Galvao, L.E.O.C. Aragao, Y.M. de Moura, C.H. do Amaral, A.I. Lyapustin, J. Wu, L.P. Albert, M.J. Ferreira, L.O. Anderson, V.A.H.F. dos Santos, N. Prohaska, E. Tribuzy, J.V. Barbosa Ceron, S.R. Saleska, Y. Wang, J.F. de Carvalho Goncalves, R.C. de Oliveira Junior, J.V.F. Cardoso Rodrigues, and M.N. Garcia. 2017. Vegetation chlorophyll estimates in the Amazon from multi-angle MODIS observations and canopy reflectance model. International Journal of Applied Earth Observation and Geoinformation. 58:278-287. https://doi.org/10.1016/j.jag.2017.01.014
2017Hoorn, C., G.R. Bogota-A, M. Romero-Baez, E.I. Lammertsma, S.G.A. Flantua, E.L. Dantas, R. Dino, D.A. do Carmo, and F. Chemale. 2017. The Amazon at sea: Onset and stages of the Amazon River from a marine record, with special reference to Neogene plant turnover in the drainage basin. Global and Planetary Change. 153:51-65. https://doi.org/10.1016/j.gloplacha.2017.02.005
2017Hsu, L., E. Mayorga, J.S. Horsburgh, M.R. Carter, K.A. Lehnert, and S.L. Brantley. 2017. Enhancing Interoperability and Capabilities of Earth Science Data using the Observations Data Model 2 (ODM2). Data Science Journal. 16:. https://doi.org/10.5334/dsj-2017-004
2017Khanna, J., D. Medvigy, S. Fueglistaler, and R. Walko. 2017. Regional dry-season climate changes due to three decades of Amazonian deforestation. Nature Climate Change. 7(3):200-204. https://doi.org/10.1038/nclimate3226
2017Koblitz, R.V.2017. A tomada de decis?es conservacionistas baseadas em informa?es sobre a biodiversidade em empreendimentos hidreltricos na Bacia Amaznica brasileira . Instituto Nacional de Pesquisas da Amaznia.
2017Luo, X., H.Y. Li, L.R. Leung, T.K. Tesfa, A. Getirana, F. Papa, and L.L. Hess. 2017. Modeling surface water dynamics in the Amazon Basin using MOSART-Inundation v1.0: impacts of geomorphological parameters and river flow representation. Geoscientific Model Development. 10(3):1233-1259. https://doi.org/10.5194/gmd-10-1233-2017
2017Moghim, S., S.L. McKnight, K. Zhang, A.M. Ebtehaj, R.G. Knox, R.L. Bras, P.R. Moorcroft, and J. Wang. 2017. Bias-corrected data sets of climate model outputs at uniform space-time resolution for land surface modelling over Amazonia. International Journal of Climatology. 37(2):621-636. https://doi.org/10.1002/joc.4728
2017Morimoto, S., R. Fujita, S. Aoki, D. Goto, and T. Nakazawa. 2017. Long-term variations of the mole fraction and carbon isotope ratio of atmospheric methane observed at Ny-Alesund, Svalbard from 1996 to 2013. Tellus B: Chemical and Physical Meteorology. 69(1):1380497. https://doi.org/10.1080/16000889.2017.1380497
2017Nagy, R.C., E.B. Rastetter, C. Neill, and S. Porder. 2017. Nutrient limitation in tropical secondary forests following different management practices. Ecological Applications. 27(3):734-755. https://doi.org/10.1002/eap.1478
2017Numata, I., K. Khand, J. Kjaersgaard, M. Cochrane, and S. Silva. 2017. Evaluation of Landsat-Based METRIC Modeling to Provide High-Spatial Resolution Evapotranspiration Estimates for Amazonian Forests. Remote Sensing. 9(1):46. https://doi.org/10.3390/rs9010046
2017Pangala, S.R., A. Enrich-Prast, L.S. Basso, R.B. Peixoto, D. Bastviken, E.R.C. Hornibrook, L.V. Gatti, H. Ribeiro, L.S.B. Calazans, C.M. Sakuragui, W.R. Bastos, O. Malm, E. Gloor, J.B. Miller, and V. Gauci. 2017. Large emissions from floodplain trees close the Amazon methane budget. Nature. https://doi.org/10.1038/nature24639
2017Park, E. and E.M. Latrubesse. 2017. The hydro-geomorphologic complexity of the lower Amazon River floodplain and hydrological connectivity assessed by remote sensing and field control. Remote Sensing of Environment. 198:321-332. https://doi.org/10.1016/j.rse.2017.06.021
2017Reimann, R., B. Gro, and P. Schmitt 2017. All Roads to Rome: Visualizing Mobility at Scale. 2017 IEEE VIS Arts Program.
2017Richards, P., E. Arima, L. VanWey, A. Cohn, and N. Bhattarai. 2017. Are Brazil's Deforesters Avoiding Detection?. Conservation Letters. 10(4):470-476. https://doi.org/10.1111/conl.12310
2017Roriz, P.A.C., A.M. Yanai, and P.M. Fearnside. 2017. Deforestation and Carbon Loss in Southwest Amazonia: Impact of Brazil's Revised Forest Code. Environmental Management. 60(3):367-382. https://doi.org/10.1007/s00267-017-0879-3
2017Sales, L.P., O.V. Neves, P. De Marco, and R. Loyola. 2017. Model uncertainties do not affect observed patterns of species richness in the Amazon. PLOS ONE. 12(10):e0183785. https://doi.org/10.1371/journal.pone.0183785
2017Sato, H. and S.A. Cowling. 2017. Glacial Amazonia at the canopy-scale: Using a biophysical model to understand forest robustness. Quaternary Science Reviews. 171:38-47. https://doi.org/10.1016/j.quascirev.2017.06.027
2017Tang, W. and A.F. Arellano. 2017. Investigating dominant characteristics of fires across the Amazon during 2005-2014 through satellite data synthesis of combustion signatures. Journal of Geophysical Research: Atmospheres. 122(2):1224-1245. https://doi.org/10.1002/2016JD025216
2017Villamarin, F., T.D. Jardine, S.E. Bunn, B. Marioni, and W.E. Magnusson. 2017. Opportunistic top predators partition food resources in a tropical freshwater ecosystem. Freshwater Biology. 62(8):1389-1400. https://doi.org/10.1111/fwb.12952
2017Wagner, F.H., B. Herault, V. Rossi, T. Hilker, E.E. Maeda, A. Sanchez, A.I. Lyapustin, L.S. Galvao, Y. Wang, and L.E.O.C. Aragao. 2017. Climate drivers of the Amazon forest greening. PLOS ONE. 12(7):e0180932. https://doi.org/10.1371/journal.pone.0180932
2017Wagner, F.H., B. Herault, V. Rossi, T. Hilker, E.E. Maeda, A. Sanchez, A.I. Lyapustin, L.S. Galvao, Y. Wang, and L.E.O.C. Aragao. 2017. Climate drivers of the Amazon forest greening. PLOS ONE. 12(7):e0180932. https://doi.org/10.1371/journal.pone.0180932
2016Almeida, D.R.A.d., B.W. Nelson, J. Schietti, E.B. Gorgens, A.F. Resende, S.C. Stark, and R. Valbuena. 2016. Contrasting fire damage and fire susceptibility between seasonally flooded forest and upland forest in the Central Amazon using portable profiling LiDAR. Remote Sensing of Environment. 184:153-160. https://doi.org/10.1016/j.rse.2016.06.017
2016Anderson, D.P., P. McMurtrie, K.A. Edge, P.W.J. Baxter, and A.E. Byrom. 2016. Inferential and forward projection modeling to evaluate options for controlling invasive mammals on islands. Ecological Applications. 26(8):2548-2559. https://doi.org/10.1002/eap.1415
2016Antunes, A.P., R.M. Fewster, E.M. Venticinque, C.A. Peres, T. Levi, F. Rohe, and G.H. Shepard. 2016. Empty forest or empty rivers? A century of commercial hunting in Amazonia. Science Advances. 2(10):e1600936. https://doi.org/10.1126/sciadv.1600936
2016Badawy, B., V.K. Arora, J.R. Melton, and R. Nassar. 2016. Modeling the diurnal variability of respiratory fluxes in the Canadian Terrestrial Ecosystem Model (CTEM). Journal of Advances in Modeling Earth Systems. 8(2):614-633. https://doi.org/10.1002/2015MS000540
2016Fleischmann, A.S., R.C.D. Paiva, W. Collischonn, M.V. Sorribas, and P.R.M. Pontes. 2016. On river-floodplain interaction and hydrograph skewness. Water Resources Research. 52(10):7615-7630. https://doi.org/10.1002/2016WR019233
2016Gebara, J., A.P. Barbosa, I.M.G. Azevedo, and B.O. Gimenez. 2016. POPULATION STRUCTURE AND PRODUCTION OF COPAIBA OLEORESIN BETWEEN VALLEYS AND HILLSIDES OF THE MINING AREA OFTROMBETAS RIVER - PARA1. Revista Arvore. 40(1):51-60. https://doi.org/10.1590/0100-67622016000100006
2016Heiblum, R.H., O. Altaratz, I. Koren, G. Feingold, A.B. Kostinski, A.P. Khain, M. Ovchinnikov, E. Fredj, G. Dagan, L. Pinto, R. Yaish, and Q. Chen. 2016. Characterization of cumulus cloud fields using trajectories in the center of gravity versus water mass phase space: 1. Cloud tracking and phase space description. Journal of Geophysical Research: Atmospheres. 121(11):6336-6355. https://doi.org/10.1002/2015JD024186
2016Itterly, K.F., P.C. Taylor, J.B. Dodson, and A.B. Tawfik. 2016. On the sensitivity of the diurnal cycle in the Amazon to convective intensity. Journal of Geophysical Research: Atmospheres. 121(14):8186-8208. https://doi.org/10.1002/2016JD025039
2016Maeda, E.E., Y.M. Moura, F. Wagner, T. Hilker, A.I. Lyapustin, Y. Wang, J. Chave, M. Mottus, L.E.O.C. Aragao, and Y. Shimabukuro. 2016. Consistency of vegetation index seasonality across the Amazon rainforest. International Journal of Applied Earth Observation and Geoinformation. 52:42-53. https://doi.org/10.1016/j.jag.2016.05.005
2016Mallick, K., I. Trebs, E. Boegh, L. Giustarini, M. Schlerf, D.T. Drewry, L. Hoffmann, C. von Randow, B. Kruijt, A. Araujo, S. Saleska, J.R. Ehleringer, T.F. Domingues, J.P.H.B. Ometto, A.D. Nobre, O.L.L. de Moraes, M. Hayek, J.W. Munger, and S.C. Wofsy. 2016. Canopy-scale biophysical controls of transpiration and evaporation in the Amazon Basin. Hydrology and Earth System Sciences. 20(10):4237-4264. https://doi.org/10.5194/hess-20-4237-2016
2016Melack, J.M. 2016. Aquatic Ecosystems. 227:119-148. https://doi.org/10.1007/978-3-662-49902-3_7
2016Morton, D.C., J. Rubio, B.D. Cook, J.P. Gastellu-Etchegorry, M. Longo, H. Choi, M. Hunter, and M. Keller. 2016. Amazon forest structure generates diurnal and seasonal variability in light utilization. Biogeosciences. 13(7):2195-2206. https://doi.org/10.5194/bg-13-2195-2016
2016Ovando, A., J. Tomasella, D.A. Rodriguez, J.M. Martinez, J.L. Siqueira-Junior, G.L.N. Pinto, P. Passy, P. Vauchel, L. Noriega, and C. von Randow. 2016. Extreme flood events in the Bolivian Amazon wetlands. Journal of Hydrology: Regional Studies. 5:293-308. https://doi.org/10.1016/j.ejrh.2015.11.004
2016Venticinque, E., B. Forsberg, R. Barthem, P. Petry, L. Hess, A. Mercado, C. Canas, M. Montoya, C. Durigan, and M. Goulding. 2016. An explicit GIS-based river basin framework for aquatic ecosystem conservation in the Amazon. Earth System Science Data. 8(2):651-661. https://doi.org/10.5194/essd-8-651-2016
2016Wagner, F.H., B. Herault, D. Bonal, C. Stahl, L.O. Anderson, T.R. Baker, G.S. Becker, H. Beeckman, D. Boanerges Souza, P.C. Botosso, D.M.J.S. Bowman, A. Brauning, B. Brede, F.I. Brown, J.J. Camarero, P.B. Camargo, F.C.G. Cardoso, F.A. Carvalho, W. Castro, R.K. Chagas, J. Chave, E.N. Chidumayo, D.A. Clark, F.R.C. Costa, C. Couralet, P.H. da Silva Mauricio, H. Dalitz, V.R. de Castro, J.E. de Freitas Milani, E.C. de Oliveira, L. de Souza Arruda, J.L. Devineau, D.M. Drew, O. Dunisch, G. Durigan, E. Elifuraha, M. Fedele, L. Ferreira Fedele, A. Figueiredo Filho, C.A.G. Finger, A.C. Franco, J.L. Freitas Junior, F. Galvao, A. Gebrekirstos, R. Gliniars, P.M.L.d.A. Graca, A.D. Griffiths, J. Grogan, K. Guan, J. Homeier, M.R. Kanieski, L.K. Kho, J. Koenig, S.V. Kohler, J. Krepkowski, J.P. Lemos-Filho, D. Lieberman, M.E. Lieberman, C.S. Lisi, T. Longhi Santos, J.L. Lopez Ayala, E.E. Maeda, Y. Malhi, V.R.B. Maria, M.C.M. Marques, R. Marques, H. Maza Chamba, L. Mbwambo, K.L.L. Melgaco, H.A. Mendivelso, B.P. Murphy, J.J. O'Brien, S.F. Oberbauer, N. Okada, R. Pelissier, L.D. Prior, F.A. Roig, M. Ross, D.R. Rossatto, V. Rossi, L. Rowland, E. Rutishauser, H. Santana, M. Schulze, D. Selhorst, W.R. Silva, M. Silveira, S. Spannl, M.D. Swaine, J.J. Toledo, M.M. Toledo, M. Toledo, T. Toma, M. Tomazello Filho, J.I. Valdez Hernandez, J. Verbesselt, S.A. Vieira, G. Vincent, C. Volkmer de Castilho, F. Volland, M. Worbes, M.L.B. Zanon, and L.E.O.C. Aragao. 2016. Climate seasonality limits leaf carbon assimilation and wood productivity in tropical forests. Biogeosciences. 13(8):2537-2562. https://doi.org/10.5194/bg-13-2537-2016
2016Wagner, F.H., B. Herault, D. Bonal, C. Stahl, L.O. Anderson, T.R. Baker, G.S. Becker, H. Beeckman, D. Boanerges Souza, P.C. Botosso, D.M.J.S. Bowman, A. Brauning, B. Brede, F.I. Brown, J.J. Camarero, P.B. Camargo, F.C.G. Cardoso, F.A. Carvalho, W. Castro, R.K. Chagas, J. Chave, E.N. Chidumayo, D.A. Clark, F.R.C. Costa, C. Couralet, P.H. da Silva Mauricio, H. Dalitz, V.R. de Castro, J.E. de Freitas Milani, E.C. de Oliveira, L. de Souza Arruda, J.L. Devineau, D.M. Drew, O. Dunisch, G. Durigan, E. Elifuraha, M. Fedele, L. Ferreira Fedele, A. Figueiredo Filho, C.A.G. Finger, A.C. Franco, J.L. Freitas Junior, F. Galvao, A. Gebrekirstos, R. Gliniars, P.M.L.d.A. Graca, A.D. Griffiths, J. Grogan, K. Guan, J. Homeier, M.R. Kanieski, L.K. Kho, J. Koenig, S.V. Kohler, J. Krepkowski, J.P. Lemos-Filho, D. Lieberman, M.E. Lieberman, C.S. Lisi, T. Longhi Santos, J.L. Lopez Ayala, E.E. Maeda, Y. Malhi, V.R.B. Maria, M.C.M. Marques, R. Marques, H. Maza Chamba, L. Mbwambo, K.L.L. Melgaco, H.A. Mendivelso, B.P. Murphy, J.J. O'Brien, S.F. Oberbauer, N. Okada, R. Pelissier, L.D. Prior, F.A. Roig, M. Ross, D.R. Rossatto, V. Rossi, L. Rowland, E. Rutishauser, H. Santana, M. Schulze, D. Selhorst, W.R. Silva, M. Silveira, S. Spannl, M.D. Swaine, J.J. Toledo, M.M. Toledo, M. Toledo, T. Toma, M. Tomazello Filho, J.I. Valdez Hernandez, J. Verbesselt, S.A. Vieira, G. Vincent, C. Volkmer de Castilho, F. Volland, M. Worbes, M.L.B. Zanon, and L.E.O.C. Aragao. 2016. Climate seasonality limits leaf carbon assimilation and wood productivity in tropical forests. Biogeosciences. 13(8):2537-2562. https://doi.org/10.5194/bg-13-2537-2016
2016Wagner, F.H., B. Herault, D. Bonal, C. Stahl, L.O. Anderson, T.R. Baker, G.S. Becker, H. Beeckman, D. Boanerges Souza, P.C. Botosso, D.M.J.S. Bowman, A. Brauning, B. Brede, F.I. Brown, J.J. Camarero, P.B. Camargo, F.C.G. Cardoso, F.A. Carvalho, W. Castro, R.K. Chagas, J. Chave, E.N. Chidumayo, D.A. Clark, F.R.C. Costa, C. Couralet, P.H. da Silva Mauricio, H. Dalitz, V.R. de Castro, J.E. de Freitas Milani, E.C. de Oliveira, L. de Souza Arruda, J.L. Devineau, D.M. Drew, O. Dunisch, G. Durigan, E. Elifuraha, M. Fedele, L. Ferreira Fedele, A. Figueiredo Filho, C.A.G. Finger, A.C. Franco, J.L. Freitas Junior, F. Galvao, A. Gebrekirstos, R. Gliniars, P.M.L.d.A. Graca, A.D. Griffiths, J. Grogan, K. Guan, J. Homeier, M.R. Kanieski, L.K. Kho, J. Koenig, S.V. Kohler, J. Krepkowski, J.P. Lemos-Filho, D. Lieberman, M.E. Lieberman, C.S. Lisi, T. Longhi Santos, J.L. Lopez Ayala, E.E. Maeda, Y. Malhi, V.R.B. Maria, M.C.M. Marques, R. Marques, H. Maza Chamba, L. Mbwambo, K.L.L. Melgaco, H.A. Mendivelso, B.P. Murphy, J.J. O'Brien, S.F. Oberbauer, N. Okada, R. Pelissier, L.D. Prior, F.A. Roig, M. Ross, D.R. Rossatto, V. Rossi, L. Rowland, E. Rutishauser, H. Santana, M. Schulze, D. Selhorst, W.R. Silva, M. Silveira, S. Spannl, M.D. Swaine, J.J. Toledo, M.M. Toledo, M. Toledo, T. Toma, M. Tomazello Filho, J.I. Valdez Hernandez, J. Verbesselt, S.A. Vieira, G. Vincent, C. Volkmer de Castilho, F. Volland, M. Worbes, M.L.B. Zanon, and L.E.O.C. Aragao. 2016. Climate seasonality limits leaf carbon assimilation and wood productivity in tropical forests. Biogeosciences. 13(8):2537-2562. https://doi.org/10.5194/bg-13-2537-2016
2016Wang, Y., G. Li, J. Ding, Z. Guo, S. Tang, C. Wang, Q. Huang, R. Liu, and J.M. Chen. 2016. A combined GLAS and MODIS estimation of the global distribution of mean forest canopy height. Remote Sensing of Environment. 174:24-43. https://doi.org/10.1016/j.rse.2015.12.005
2016Wang, Y., G. Li, J. Ding, Z. Guo, S. Tang, C. Wang, Q. Huang, R. Liu, and J.M. Chen. 2016. A combined GLAS and MODIS estimation of the global distribution of mean forest canopy height. Remote Sensing of Environment. 174:24-43. https://doi.org/10.1016/j.rse.2015.12.005
2016Wang, Y., G. Li, J. Ding, Z. Guo, S. Tang, C. Wang, Q. Huang, R. Liu, and J.M. Chen. 2016. A combined GLAS and MODIS estimation of the global distribution of mean forest canopy height. Remote Sensing of Environment. 174:24-43. https://doi.org/10.1016/j.rse.2015.12.005
2016Zhu, Q., W.J. Riley, J. Tang, and C.D. Koven. 2016. Multiple soil nutrient competition between plants, microbes, and mineral surfaces: model development, parameterization, and example applications in several tropical forests. Biogeosciences. 13(1):341-363. https://doi.org/10.5194/bg-13-341-2016
2015Anber, U., P. Gentine, S. Wang, and A.H. Sobel. 2015. Fog and rain in the Amazon. Proceedings of the National Academy of Sciences. 112(37):11473-11477. https://doi.org/10.1073/pnas.1505077112
2015de Faria, F.A.M., P. Jaramillo, H.O. Sawakuchi, J.E. Richey, and N. Barros. 2015. Estimating greenhouse gas emissions from future Amazonian hydroelectric reservoirs. Environmental Research Letters. 10(12):124019. https://doi.org/10.1088/1748-9326/10/12/124019
2015de Moura, Y.M., T. Hilker, A.I. Lyapustin, L.S. Galvao, J.R. dos Santos, L.O. Anderson, C.H.R. de Sousa, and E. Arai. 2015. Seasonality and drought effects of Amazonian forests observed from multi-angle satellite data. Remote Sensing of Environment. 171:278-290. https://doi.org/10.1016/j.rse.2015.10.015
2015Hess, L.L., J.M. Melack, A.G. Affonso, C. Barbosa, M. Gastil-Buhl, and E.M.L.M. Novo. 2015. Wetlands of the Lowland Amazon Basin: Extent, Vegetative Cover, and Dual-season Inundated Area as Mapped with JERS-1 Synthetic Aperture Radar. Wetlands. 35(4):745-756. https://doi.org/10.1007/s13157-015-0666-y
2015Melton, J.R., R.K. Shrestha, and V.K. Arora. 2015. The influence of soils on heterotrophic respiration exerts a strong control on net ecosystem productivity in seasonally dry Amazonian forests. Biogeosciences. 12(4):1151-1168. https://doi.org/10.5194/bg-12-1151-2015
2015Moghim, S., A.J. Bowen, S. Sarachi, and J. Wang. 2015. Retrieval of Hourly Records of Surface Hydrometeorological Variables Using Satellite Remote Sensing Data. Journal of Hydrometeorology. 16(1):147-157. https://doi.org/10.1175/JHM-D-13-0127.1
2015Pilotto, I.L., D.A. Rodriguez, J. Tomasella, G. Sampaio, and S.C. Chou. 2015. Comparisons of the Noah-MP land surface model simulations with measurements of forest and crop sites in Amazonia. Meteorology and Atmospheric Physics. 127(6):711-723. https://doi.org/10.1007/s00703-015-0399-8
2015Quijano, J.C. and P. Kumar. 2015. Numerical simulations of hydraulic redistribution across climates: The role of the root hydraulic conductivities. Water Resources Research. 51(10):8529-8550. https://doi.org/10.1002/2014WR016509
2015Richards, P.D. and L. VanWey. 2015. Farm-scale distribution of deforestation and remaining forest cover in Mato Grosso. Nature Climate Change. 6(4):418-425. https://doi.org/10.1038/nclimate2854
2015Stockmann, U., J. Padarian, A. McBratney, B. Minasny, D. de Brogniez, L. Montanarella, S.Y. Hong, B.G. Rawlins, and D.J. Field. 2015. Global soil organic carbon assessment. Global Food Security. 6:9-16. https://doi.org/10.1016/j.gfs.2015.07.001
2015Stockmann, U., J. Padarian, A. McBratney, B. Minasny, D. de Brogniez, L. Montanarella, S.Y. Hong, B.G. Rawlins, and D.J. Field. 2015. Global soil organic carbon assessment. Global Food Security. 6:9-16. https://doi.org/10.1016/j.gfs.2015.07.001
2015Stockmann, U., J. Padarian, A. McBratney, B. Minasny, D. de Brogniez, L. Montanarella, S.Y. Hong, B.G. Rawlins, and D.J. Field. 2015. Global soil organic carbon assessment. Global Food Security. 6:9-16. https://doi.org/10.1016/j.gfs.2015.07.001
2015Stockmann, U., J. Padarian, A. McBratney, B. Minasny, D. de Brogniez, L. Montanarella, S.Y. Hong, B.G. Rawlins, and D.J. Field. 2015. Global soil organic carbon assessment. Global Food Security. 6:9-16. https://doi.org/10.1016/j.gfs.2015.07.001
2015ter Steege, H., N.C.A. Pitman, T.J. Killeen, W.F. Laurance, C.A. Peres, J.E. Guevara, R.P. Salomao, C.V. Castilho, I.L. Amaral, F.D. de Almeida Matos, L. de Souza Coelho, W.E. Magnusson, O.L. Phillips, D. de Andrade Lima Filho, M. de Jesus Veiga Carim, M.V. Irume, M.P. Martins, J.F. Molino, D. Sabatier, F. Wittmann, D.C. Lopez, J.R. da Silva Guimaraes, A.M. Mendoza, P.N. Vargas, A.G. Manzatto, N.F.C. Reis, J. Terborgh, K.R. Casula, J.C. Montero, T.R. Feldpausch, E.N. Honorio Coronado, A.J.D. Montoya, C.E. Zartman, B. Mostacedo, R. Vasquez, R.L. Assis, M.B. Medeiros, M.F. Simon, A. Andrade, J.L. Camargo, S.G.W. Laurance, H.E.M. Nascimento, B.S. Marimon, B.H. Marimon, F. Costa, N. Targhetta, I.C.G. Vieira, R. Brienen, H. Castellanos, J.F. Duivenvoorden, H.F. Mogollon, M.T.F. Piedade, G.A. Aymard C., J.A. Comiskey, G. Damasco, N. Davila, R. Garcia-Villacorta, P.R.S. Diaz, A. Vincentini, T. Emilio, C. Levis, J. Schietti, P. Souza, A. Alonso, F. Dallmeier, L.V. Ferreira, D. Neill, A. Araujo-Murakami, L. Arroyo, F.A. Carvalho, F.C. Souza, D.D.d. Amaral, R. Gribel, B.G. Luize, M.P. Pansonato, E. Venticinque, P. Fine, M. Toledo, C. Baraloto, C. Ceron, J. Engel, T.W. Henkel, E.M. Jimenez, P. Maas, M.C.P. Mora, P. Petronelli, J.D.C. Revilla, M. Silveira, J. Stropp, R. Thomas-Caesar, T.R. Baker, D. Daly, M.R. Paredes, N.F. da Silva, A. Fuentes, P.M. Jorgensen, J. Schongart, M.R. Silman, N.C. Arboleda, B.B.L. Cintra, F.C. Valverde, A. Di Fiore, J.F. Phillips, T.R. van Andel, P. von Hildebrand, E.M. Barbosa, L.C. de Matos Bonates, D. de Castro, E. de Sousa Farias, T. Gonzales, J.L. Guillaumet, B. Hoffman, Y. Malhi, I.P. de Andrade Miranda, A. Prieto, A. Rudas, A.R. Ruschell, N. Silva, C.I.A. Vela, V.A. Vos, E.L. Zent, S. Zent, A. Cano, M.T. Nascimento, A.A. Oliveira, H. Ramirez-Angulo, J.F. Ramos, R. Sierra, M. Tirado, M.N.U. Medina, G. van der Heijden, E.V. Torre, C. Vriesendorp, O. Wang, K.R. Young, C. Baider, H. Balslev, N. de Castro, W. Farfan-Rios, C. Ferreira, C. Mendoza, I. Mesones, A. Torres-Lezama, L.E.U. Giraldo, D. Villarroel, R. Zagt, M.N. Alexiades, K. Garcia-Cabrera, L. Hernandez, I. Huamantupa-Chuquimaco, W. Milliken, W.P. Cuenca, S. Pansini, D. Pauletto, F.R. Arevalo, A.F. Sampaio, E.H. Valderrama Sandoval, and L.V. Gamarra. 2015. Estimating the global conservation status of more than 15,000 Amazonian tree species. Science Advances. 1(10):e1500936. https://doi.org/10.1126/sciadv.1500936
2014Gutierrez, R.R., J.D. Abad, M. Choi, and H. Montoro. 2014. Characterization of confluences in free meandering rivers of the Amazon basin. Geomorphology. 220:1-14. https://doi.org/10.1016/j.geomorph.2014.05.011
2014Hartmann, J., N. Moosdorf, R. Lauerwald, M. Hinderer, and A.J. West. 2014. Global chemical weathering and associated P-release -- The role of lithology, temperature and soil properties. Chemical Geology. 363:145-163. https://doi.org/10.1016/j.chemgeo.2013.10.025
2014Juliao, G.R., E.D. Almada, and G.W. Fernandes. 2014. Galling Insects in the Pantanal Wetland and Amazonian Rainforest. 377-403. https://doi.org/10.1007/978-94-017-8783-3_19
2014Lange, S., B. Rockel, J. Volkholz, and B. Bookhagen. 2014. Regional climate model sensitivities to parametrizations of convection and non-precipitating subgrid-scale clouds over South America. Climate Dynamics. 44(9-10):2839-2857. https://doi.org/10.1007/s00382-014-2199-0
2014Maeda, E.E., J. Heiskanen, L.E.O.C. Aragao, and J. Rinne. 2014. Can MODIS EVI monitor ecosystem productivity in the Amazon rainforest?. Geophysical Research Letters. 41(20):7176-7183. https://doi.org/10.1002/2014GL061535
2014Rivera, L.E., M.C. Peauela, and F. Moreno. 2014. Intra annual seed production and availability of two morphotypes of Brosimum rubescens taubert in forests of the Colombian Amazon. Biota Neotropica. 14(4):. https://doi.org/10.1590/1676-06032014007313
2014Rudorff, C.M., J.M. Melack, and P.D. Bates. 2014. Flooding dynamics on the lower Amazon floodplain: 1. Hydraulic controls on water elevation, inundation extent, and river-floodplain discharge. Water Resources Research. 50(1):619-634. https://doi.org/10.1002/2013WR014091
2014Sawakuchi, H.O., D. Bastviken, A.O. Sawakuchi, A.V. Krusche, M.V.R. Ballester, and J.E. Richey. 2014. Methane emissions from Amazonian Rivers and their contribution to the global methane budget. Global Change Biology. 20(9):2829-2840. https://doi.org/10.1111/gcb.12646
2014Wagner, F., V. Rossi, M. Aubry-Kientz, D. Bonal, H. Dalitz, R. Gliniars, C. Stahl, A. Trabucco, and B. Herault. 2014. Pan-Tropical Analysis of Climate Effects on Seasonal Tree Growth. PLoS ONE. 9(3):e92337. https://doi.org/10.1371/journal.pone.0092337
2014Yan, B. and R.E. Dickinson. 2014. Modeling hydraulic redistribution and ecosystem response to droughts over the Amazon basin using Community Land Model 4.0 (CLM4). Journal of Geophysical Research: Biogeosciences. 119(11):2130-2143. https://doi.org/10.1002/2014JG002694
2013Fallon M.; (2013) Spectral Mixture Analysis of Eo-1 Hyperion Imagery In the Channelled Scablands of Eastern Washington. Department: Maryville, MO: Northwest Missouri State University. Master of Science.
2013Furze, J.N., Q. Zhu, F. Qiao, and J. Hill. 2013. Functional Enrichment of Utopian Distribution of Plant Life-Forms. American Journal of Plant Sciences. 04(12):37-48. https://doi.org/10.4236/ajps.2013.412A1006
2013Gutierrez-Velez, V.H. and R. DeFries. 2013. Annual multi-resolution detection of land cover conversion to oil palm in the Peruvian Amazon. Remote Sensing of Environment. 129:154-167. https://doi.org/10.1016/j.rse.2012.10.033
2013JOHNSON, J.E. and J.A. BERRY. 2013. The influence of leaf-atmosphere NH3(g)exchange on the isotopic composition of nitrogen in plants and the atmosphere. Plant, Cell & Environment. 36(10):1783-1801. https://doi.org/10.1111/pce.12087
2013Li, R. and Q. Min. 2013. Dynamic response of microwave land surface properties to precipitation in Amazon rainforest. Remote Sensing of Environment. 133:183-192. https://doi.org/10.1016/j.rse.2013.02.001
2013Pappalardo, S.E., M. De Marchi, and F. Ferrarese. 2013. Uncontacted Waorani in the Yasuni Biosphere Reserve: Geographical Validation of the Zona Intangible Tagaeri Taromenane (ZITT). PLoS ONE. 8(6):e66293. https://doi.org/10.1371/journal.pone.0066293
2013Restrepo-Coupe, N., H.R. da Rocha, L.R. Hutyra, A.C. da Araujo, L.S. Borma, B. Christoffersen, O.M.R. Cabral, P.B. de Camargo, F.L. Cardoso, A.C.L. da Costa, D.R. Fitzjarrald, M.L. Goulden, B. Kruijt, J.M.F. Maia, Y.S. Malhi, A.O. Manzi, S.D. Miller, A.D. Nobre, C. von Randow, L.D.A. Sa, R.K. Sakai, J. Tota, S.C. Wofsy, F.B. Zanchi, and S.R. Saleska. 2013. What drives the seasonality of photosynthesis across the Amazon basin? A cross-site analysis of eddy flux tower measurements from the Brasil flux network. Agricultural and Forest Meteorology. 182-183:128-144. https://doi.org/10.1016/j.agrformet.2013.04.031
2013van Haren, J., R.C. de Oliveira, P.T. Beldini, P.B. de Camargo, M. Keller, and S. Saleska. 2013. Tree Species Effects on Soil Properties and Greenhouse Gas Fluxes in East-central Amazonia: Comparison between Monoculture and Diverse Forest. Biotropica. 45(6):709-718. https://doi.org/10.1111/btp.12061
2013Wagner, F., V. Rossi, C. Stahl, D. Bonal, and B. Herault. 2013. Asynchronism in leaf and wood production in tropical forests: a study combining satellite and ground-based measurements. Biogeosciences Discussions. 10(5):8247-8281. https://doi.org/10.5194/bgd-10-8247-2013
2012Miguez-Macho, G. and Y. Fan. 2012. The role of groundwater in the Amazon water cycle: 2. Influence on seasonal soil moisture and evapotranspiration. Journal of Geophysical Research: Atmospheres. 117(D15):n/a-n/a. https://doi.org/10.1029/2012JD017540
2012Miguez-Macho, G. and Y. Fan. 2012. The role of groundwater in the Amazon water cycle: 2. Influence on seasonal soil moisture and evapotranspiration. Journal of Geophysical Research: Atmospheres. 117(D15):n/a-n/a. https://doi.org/10.1029/2012JD017540
2012Newton, P., C.A. Peres, S.J.M. Desmouliere, and A.R. Watkinson. 2012. Cross-scale variation in the density and spatial distribution of an Amazonian non-timber forest resource. Forest Ecology and Management. 276:41-51. https://doi.org/10.1016/j.foreco.2012.03.020
2012Sierra, C.A., J.I. del Valle, and H.I. Restrepo. 2012. Total carbon accumulation in a tropical forest landscape. Carbon Balance and Management. 7(1):. https://doi.org/10.1186/1750-0680-7-12
2011Bustillo, V., R.L. Victoria, J.M.S.d. Moura, D.d.C. Victoria, A.M.A. Toledo, and E. Collicchio. 2011. Factors driving the biogeochemical budget of the Amazon River and its statistical modelling. Comptes Rendus Geoscience. 343(4):261-277. https://doi.org/10.1016/j.crte.2011.01.003
2011KATTGE, J., S. DIAZ, S. LAVOREL, I.C. PRENTICE, P. LEADLEY, G. BONISCH, E. GARNIER, M. WESTOBY, P.B. REICH, I.J. WRIGHT, J.H.C. CORNELISSEN, C. VIOLLE, S.P. HARRISON, P.M. Van BODEGOM, M. REICHSTEIN, B.J. ENQUIST, N.A. SOUDZILOVSKAIA, D.D. ACKERLY, M. ANAND, O. ATKIN, M. BAHN, T.R. BAKER, D. BALDOCCHI, R. BEKKER, C.C. BLANCO, B. BLONDER, W.J. BOND, R. BRADSTOCK, D.E. BUNKER, F. CASANOVES, J. CAVENDER-BARES, J.Q. CHAMBERS, F.S. CHAPIN III, J. CHAVE, D. COOMES, W.K. CORNWELL, J.M. CRAINE, B.H. DOBRIN, L. DUARTE, W. DURKA, J. ELSER, G. ESSER, M. ESTIARTE, W.F. FAGAN, J. FANG, F. FERNANDEZ-MENDEZ, A. FIDELIS, B. FINEGAN, O. FLORES, H. FORD, D. FRANK, G.T. FRESCHET, N.M. FYLLAS, R.V. GALLAGHER, W.A. GREEN, A.G. GUTIERREZ, T. HICKLER, S.I. HIGGINS, J.G. HODGSON, A. JALILI, S. JANSEN, C.A. JOLY, A.J. KERKHOFF, D. KIRKUP, K. KITAJIMA, M. KLEYER, S. KLOTZ, J.M.H. KNOPS, K. KRAMER, I. KUHN, H. KUROKAWA, D. LAUGHLIN, T.D. LEE, M. LEISHMAN, F. LENS, T. LENZ, S.L. LEWIS, J. LLOYD, J. LLUSIA, F. LOUAULT, S. MA, M.D. MAHECHA, P. MANNING, T. MASSAD, B.E. MEDLYN, J. MESSIER, A.T. MOLES, S.C. MULLER, K. NADROWSKI, S. NAEEM, U. NIINEMETS, S. NOLLERT, A. NUSKE, R. OGAYA, J. OLEKSYN, V.G. ONIPCHENKO, Y. ONODA, J. ORDONEZ, G. OVERBECK, W.A. OZINGA, S. PATINO, S. PAULA, J.G. PAUSAS, J. PENUELAS, O.L. PHILLIPS, V. PILLAR, H. POORTER, L. POORTER, P. POSCHLOD, A. PRINZING, R. PROULX, A. RAMMIG, S. REINSCH, B. REU, L. SACK, B. SALGADO-NEGRET, J. SARDANS, S. SHIODERA, B. SHIPLEY, A. SIEFERT, E. SOSINSKI, J.F. SOUSSANA, E. SWAINE, N. SWENSON, K. THOMPSON, P. THORNTON, M. WALDRAM, E. WEIHER, M. WHITE, S. WHITE, S.J. WRIGHT, B. YGUEL, S. ZAEHLE, A.E. ZANNE, and C. WIRTH. 2011. TRY - a global database of plant traits. Global Change Biology. 17(9):2905-2935. https://doi.org/10.1111/j.1365-2486.2011.02451.x
2011Peter Newton (2011) Opportunities for conservation and livelihoods in Amazonian extractive reserves.School of Environmental Sciences, University of East Anglia. Thesis submitted for the degree of Doctor of Philosophy. https://ueaeprints.uea.ac.uk/35365/1/2011NewtonPPhD.pdf
2011Stallard, R. F., Elements, (2011). Carbon and Water Cycles Amazon River Basin Applied Biogeochemistry: Review. International Mineralogical Association magazine. (February 7, 2011). http://www.elementsmagazine.org/archives/e7_1/e7_1_dep_bookreviews.pdf
2011Verbeeck, H., P. Peylin, C. Bacour, D. Bonal, K. Steppe, and P. Ciais. 2011. Seasonal patterns of CO2fluxes in Amazon forests: Fusion of eddy covariance data and the ORCHIDEE model. Journal of Geophysical Research. 116(G2):. https://doi.org/10.1029/2010JG001544
2011Verbeeck, H., P. Peylin, C. Bacour, D. Bonal, K. Steppe, and P. Ciais. 2011. Seasonal patterns of CO2fluxes in Amazon forests: Fusion of eddy covariance data and the ORCHIDEE model. Journal of Geophysical Research. 116(G2):. https://doi.org/10.1029/2010JG001544
2011Verbeeck, H., P. Peylin, C. Bacour, D. Bonal, K. Steppe, and P. Ciais. 2011. Seasonal patterns of CO2fluxes in Amazon forests: Fusion of eddy covariance data and the ORCHIDEE model. Journal of Geophysical Research. 116(G2):. https://doi.org/10.1029/2010JG001544
2011Webler, G., Moreira, V., Timm, A., Roberti, D.R., Senna, J., Cuadra, S.V.; (2011). Valida_o do balano de energia do modelo Agro-IBIS para soja em duas regi_es do Brasil. VII Workshop Brasileiro de Micrometeorologia.
2010Metcalfe, D.B., R. Lobo-do-Vale, M.M. Chaves, J.P. Maroco, L.E.O. C Aragao, Y. Malhi, A.L. Da Costa, A.P. Braga, P.L. Goncalves, J. De Athaydes, M. Da Costa, S.S. Almeida, C. Campbell, V. Hurry, M. Williams, and P. Meir. 2010. Impacts of experimentally imposed drought on leaf respiration and morphology in an Amazon rain forest. Functional Ecology. 24(3):524-533. https://doi.org/10.1111/j.1365-2435.2009.01683.x
2010ROBERTSON, A.L., Y. MALHI, F. FARFAN-AMEZQUITA, L.E.O.C. ARAGAO, J.E. SILVA ESPEJO, and M.A. ROBERTSON. 2010. Stem respiration in tropical forests along an elevation gradient in the Amazon and Andes. Global Change Biology. 16(12):3193-3204. https://doi.org/10.1111/j.1365-2486.2010.02314.x
2010Taylor, P.G. and A.R. Townsend. 2010. Stoichiometric control of organic carbon-nitrate relationships from soils to the sea. Nature. 464(7292):1178-1181. https://doi.org/10.1038/nature08985
2009Adeney, J.M., N.L. Christensen, and S.L. Pimm. 2009. Reserves Protect against Deforestation Fires in the Amazon. PLoS ONE. 4(4):e5014. https://doi.org/10.1371/journal.pone.0005014
2009Anaya, J.A., E. Chuvieco, and A. Palacios-Orueta. 2009. Aboveground biomass assessment in Colombia: A remote sensing approach. Forest Ecology and Management. 257(4):1237-1246. https://doi.org/10.1016/j.foreco.2008.11.016
2009Karl, M., A. Guenther, R. Koble, A. Leip, and G. Seufert. 2009. A new European plant-specific emission inventory of biogenic volatile organic compounds for use in atmospheric transport models. Biogeosciences. 6(6):1059-1087. https://doi.org/10.5194/bg-6-1059-2009
2007Nobre, A. D.; (2007). The climate system and its interactions with biodiversity and human livelihoods. Royal Society and GBSC Workshop, London.
2007Numata, I., D.A. Roberts, Y. Sawada, O.A. Chadwick, J.P. Schimel, and J.V. Soares. 2007. Regional Characterization of Pasture Changes through Time and Space in Rondônia, Brazil. Earth Interactions. 11(14):1-25. https://doi.org/10.1175/EI232.1
2006Cowling, S.A. and Y. Shin. 2006. Simulated ecosystem threshold responses to co-varying temperature, precipitation and atmospheric CO2 within a region of Amazonia. Global Ecology and Biogeography. 060807052106001-???. https://doi.org/10.1111/j.1466-822x.2006.00256.x
2006Cowling, S.A. and Y. Shin. 2006. Simulated ecosystem threshold responses to co-varying temperature, precipitation and atmospheric CO2 within a region of Amazonia. Global Ecology and Biogeography. 060807052106001-???. https://doi.org/10.1111/j.1466-822x.2006.00256.x
2006Cowling, S.A. and Y. Shin. 2006. Simulated ecosystem threshold responses to co-varying temperature, precipitation and atmospheric CO2 within a region of Amazonia. Global Ecology and Biogeography. 060807052106001-???. https://doi.org/10.1111/j.1466-822x.2006.00256.x
2006Holmes, K.W., O.A. Chadwick, P.C. Kyriakidis, E.P. Silva de Filho, J.V. Soares, and D.A. Roberts. 2006. Large-area spatially explicit estimates of tropical soil carbon stocks and response to land-cover change. Global Biogeochemical Cycles. 20(3):n/a-n/a. https://doi.org/10.1029/2005GB002507
2005Holmes, K.W., P.C. Kyriakidis, O.A. Chadwick, J.V. Soares, and D.A. Roberts. 2005. Multi-scale variability in tropical soil nutrients following land-cover change. Biogeochemistry. 74(2):173-203. https://doi.org/10.1007/s10533-004-3544-x
2004Holmes, K.W., D.A. Roberts, S. Sweeney, I. Numata, E. Matricardi, T.W. Biggs, G. Batista, and O.A. Chadwick. 2004. Soil databases and the problem of establishing regional biogeochemical trends. Global Change Biology. 10(5):796-814. https://doi.org/10.1111/j.1529-8817.2003.00753.x
2004Poveda, G. and L.F. Salazar. 2004. Annual and interannual (ENSO) variability of spatial scaling properties of a vegetation index (NDVI) in Amazonia. Remote Sensing of Environment. 93(3):391-401. https://doi.org/10.1016/j.rse.2004.08.001
2004Satake, M. and H. Hanado. 2004. Diurnal change of Amazon rain forest /spl sigma//sup 0/ observed by Ku-band spaceborne radar. IEEE Transactions on Geoscience and Remote Sensing. 42(6):1127-1134. https://doi.org/10.1109/TGRS.2004.825589
1998Costa, M.H. and J.A. Foley. 1998. A comparison of precipitation datasets for the Amazon Basin. Geophysical Research Letters. 25(2):155-158. https://doi.org/10.1029/97GL03502
1997Smirnova, T.G., J.M. Brown, and S.G. Benjamin. 1997. Performance of Different Soil Model Configurations in Simulating Ground Surface Temperature and Surface Fluxes. Monthly Weather Review. 125(8):1870-1884. https://doi.org/10.1175/1520-0493(1997)125<1870:podsmc>2.0.co;2
Zacks, L. Pre-Columbian soil management, settlement, and land use in Amazonia: Insights using micro-regional predictive modelling in Gurup , Brazil. https://doi.org/10.18297/etd/4332
2023Restrepo?Coupe, N., B. O’Donnell Christoffersen, M. Longo, L.F. Alves, K.S. Campos, A.C. da Araujo, R.C. de Oliveira, N. Prohaska, R. da Silva, R. Tapajos, K.T. Wiedemann, S.C. Wofsy, and S.R. Saleska. 2023. Asymmetric response of Amazon forest water and energy fluxes to wet and dry hydrological extremes reveals onset of a local drought?induced tipping point. Global Change Biology. 29(21):6077-6092. https://doi.org/10.1111/gcb.16933
2018Deeter, M.N., S. Martinez-Alonso, M.O. Andreae, and H. Schlager. 2018. Satellite-Based Analysis of CO Seasonal and Interannual Variability Over the Amazon Basin. Journal of Geophysical Research: Atmospheres. 123(10):5641-5656. https://doi.org/10.1029/2018JD028425
2017Forsberg, B.R., J.M. Melack, T. Dunne, R.B. Barthem, M. Goulding, R.C.D. Paiva, M.V. Sorribas, U.L. Silva, and S. Weisser. 2017. The potential impact of new Andean dams on Amazon fluvial ecosystems. PLOS ONE. 12(8):e0182254. https://doi.org/10.1371/journal.pone.0182254
2017Khand, K., I. Numata, J. Kjaersgaard, and G. Vourlitis. 2017. Dry Season Evapotranspiration Dynamics over Human-Impacted Landscapes in the Southern Amazon Using the Landsat-Based METRIC Model. Remote Sensing. 9(7):706. https://doi.org/10.3390/rs9070706
2016de Oliveira, G., N. Brunsell, E. Moraes, G. Bertani, T. dos Santos, Y. Shimabukuro, and L. Aragao. 2016. Use of MODIS Sensor Images Combined with Reanalysis Products to Retrieve Net Radiation in Amazonia. Sensors. 16(7):956. https://doi.org/10.3390/s16070956
2016Wofsy, S.C. 2016. https://doi.org/10.2172/1347090
2015Joetzjer, E., C. Delire, H. Douville, P. Ciais, B. Decharme, D. Carrer, H. Verbeeck, M. De Weirdt, and D. Bonal. 2015. Improving the ISBA<sub>CC</sub> land surface model simulation of water and carbon fluxes and stocks over the Amazon forest. Geoscientific Model Development. 8(6):1709-1727. https://doi.org/10.5194/gmd-8-1709-2015
2013Lorenzo, L., N. Perez-Harguindeguy, F. Casanoves, and A.A. de Oliveira. 2013. Recovering from forest-to-pasture conversion: leaf decomposition in Central Amazonia, Brazil. Journal of Tropical Ecology. 30(01):93-96. https://doi.org/10.1017/S0266467413000771
2010Ignotti, E., de Souza Hacon, S., Junger, WL., Mour?o, D., Longo, K., Freitas, S., Artaxo, P., de Leon, ACMP., Cad. Sa?de P?blica, (2010). Air pollution and hospital admissions for respiratory diseases in the subequatorial Amazon: a time series approach P.
2008Malhi, Y. and R.M. Roman-Cuesta. 2008. Analysis of lacunarity and scales of spatial homogeneity in IKONOS images of Amazonian tropical forest canopies. Remote Sensing of Environment. 112(5):2074-2087. https://doi.org/10.1016/j.rse.2008.01.009
2007ALTON, P.B., P.R. NORTH, and S.O. LOS. 2007. The impact of diffuse sunlight on canopy light-use efficiency, gross photosynthetic product and net ecosystem exchange in three forest biomes. Global Change Biology. 13(4):776-787. https://doi.org/10.1111/j.1365-2486.2007.01316.x
2006LÖVBRAND, E. and J. STRIPPLE. 2006. The climate as political space: on the territorialisation of the global carbon cycle. Review of International Studies. 32(2):217-235. https://doi.org/10.1017/S0260210506006991
2004Satake, M. and H. Hanado. 2004. Diurnal change of Amazon rain forest /spl sigma//sup 0/ observed by Ku-band spaceborne radar. IEEE Transactions on Geoscience and Remote Sensing. 42(6):1127-1134. https://doi.org/10.1109/TGRS.2004.825589
2003Asner, G. 2003. Canopy shadow in IKONOS satellite observations of tropical forests and savannas. Remote Sensing of Environment. 87(4):521-533. https://doi.org/10.1016/j.rse.2003.08.006