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Showing 1-20 of about 311 results.
Sediment depth and accretion shape belowground mangrove carbon stocks across a range of climatic and geologic settingsDOI: info:10.1002/lno.12241Wiley
Costa, Matthew T., Ezcurra, Exequiel, Ezcurra, Paula, Salinas-de-León, Pelayo, Turner, Benjamin, Kumagai, Joy, Leichter, James, and Aburto-Oropeza, Octavio. 2022. "Sediment depth and accretion shape belowground mangrove carbon stocks across a range of climatic and geologic settings." Limnology and Oceanography, https://doi.org/10.1002/lno.12241.
How do tropical tree species maintain high growth rates on low-phosphorus soils?DOI: info:10.1007/s11104-022-05602-2v. 480No. 1-231–56
Aoyagi, Ryota, Kitayama, Kanehiro, and Turner, Benjamin L. 2022. "How do tropical tree species maintain high growth rates on low-phosphorus soils?" Plant and Soil, 480, (1-2) 31–56. https://doi.org/10.1007/s11104-022-05602-2.
Turner, Benjamin L. and Condit, Richard S. 2022. [Dataset] Soil chemistry and dry season intensity, Panama Canal Area. Distributed by Dryad. https://doi.org/10.7291/D1B963.
Fortuna Forest Reserve, Panama: Interacting Effects of Climate and Soils on the Biota of a Wet Premontane Tropical ForestDOI: info:10.5479/si.14315990Smithsonian Institution Scholarly Press302
Dalling, James W. and Turner, Benjamin L., editors. 2021. Fortuna Forest Reserve, Panama: Interacting Effects of Climate and Soils on the Biota of a Wet Premontane Tropical Forest. Washington, DC: Smithsonian Institution Scholarly Press. In Smithsonian Contributions to Botany, 112. https://doi.org/10.5479/si.14315990.
Early historical forest clearance caused major degradation of water quality at Lake Vaeng, DenmarkDOI: info:10.1016/j.ancene.2021.100302v. 35Elsevier Science Limited
Bennike, Ole, Odgaard, Bent Vad, Moorhouse, Heather, McGowan, Suzanne, Siggaard-Andersen, Marie-Louise, Turner, Benjamin L., Schomacker, Anders, Jessen, Soren, Kazmierczak, Jolanta, Olsen, Jesper, Rasmussen, Peter, Kidmose, Jacob, Nisbeth, Catharina S., Thorling, Laerke, and Weckstrom, Kaarina. 2021. "Early historical forest clearance caused major degradation of water quality at Lake Vaeng, Denmark." Anthropocene, 35. https://doi.org/10.1016/j.ancene.2021.100302.
Divergent, age-associated fungal communities of Pinus flexilis and Pinus longaevaDOI: info:10.1016/j.foreco.2021.119277v. 494
Birch, Joseph D., Lutz, James A., Turner, Benjamin L., and Karst, Justine. 2021. "Divergent, age-associated fungal communities of Pinus flexilis and Pinus longaeva." Forest Ecology and Management, 494. https://doi.org/10.1016/j.foreco.2021.119277.
Extinction at the end-Cretaceous and the origin of modern Neotropical rainforestsDOI: info:10.1126/science.abf1969v. 372No. 653763–68
Carvalho, Mónica R., Jaramillo, Carlos, de La Parra, Felipe, Caballero-Rodríguez, Dayenari, Herrera, Fabiany, Wing, Scott, Turner, Benjamin L., D'Apolito, Carlos, Romero-Báez, Millerlandy, Narváez, Paula, Martínez, Camila, Gutierrez, Mauricio, Labandeira, Conrad C., Bayona, German, Rueda, Milton, Paez-Reyes, Manuel, Cárdenas, Dairon, Duque, Álvaro, Crowley, James L., Santos, Carlos, and Silvestro, Daniele. 2021. "Extinction at the end-Cretaceous and the origin of modern Neotropical rainforests." Science, 372, (6537) 63–68. https://doi.org/10.1126/science.abf1969.
Introduction to the Fortuna Forest Reserve: Soil and Climate Effects on the Tree Communities of a Premontane Tropical ForestSmithsonian Scholarly Press1–34
Dalling, James W., Prada, Cecilia M., Heineman, Katherine D., Andersen, Kelly M., Morris, Arturo, Pardo, Juliana, Hollenbeck, Emily, Caballero, Pedro, Espinosa, Carlos, Garcia, Evidelio, and Turner, Benjamin L. 2021. "Introduction to the Fortuna Forest Reserve: Soil and Climate Effects on the Tree Communities of a Premontane Tropical Forest." In Fortuna Forest Reserve, Panama Interacting Effects of Climate and Soils on the Biota of a Wet Premontane Tropical Forest. Dalling, James W. and Turner, Benjamin L., editors. 1–34. Washington, D.C: Smithsonian Scholarly Press.
Soils of the Fortuna Forest ReserveSmithsonian Scholarly Press47–136
Turner, Benjamin L. and Dalling, James W. 2021. "Soils of the Fortuna Forest Reserve." In Fortuna Forest Reserve, Panama Interacting Effects of Climate and Soils on the Biota of a Wet Premontane Tropical Forest. Dalling, James W. and Turner, Benjamin L., editors. 47–136. Washington, D.C: Smithsonian Scholarly Press.
ForestGEO: Understanding forest diversity and dynamics through a global observatory networkDOI: info:10.1016/j.biocon.2020.108907v. 253Elsevier Science Limited108907–108907
Davies, Stuart J., Abiem, Iveren, Abu Salim, Kamariah, Aguilar, Salomon, Allen, David, Alonso, Alfonso, Anderson-Teixeira, Kristina J., Andrade, Ana, Arellano, Gabriel, Ashton, Peter S., Baker, Patrick J., Baker, Matthew E., Baltzer, Jennifer L., Basset, Yves, Bissiengou, Pulcherie, Bohlman, Stephanie, Bourg, Norman A., Brockelman, Warren Y., Bunyavejchewin, Sarayudh, Burslem, David F. R. P., Cao, Min, Cardenas, Dairon, Chang, Li-Wan, Chang-Yang, Chia-Hao, Chao, Kuo-Jung et al. 2021. "ForestGEO: Understanding forest diversity and dynamics through a global observatory network." Biological Conservation, 253 108907–108907. https://doi.org/10.1016/j.biocon.2020.108907.
A shift from phenol to silica-based leaf defences during long-term soil and ecosystem developmentDOI: info:10.1111/ele.13713Wiley
de Tombeur, Felix, Laliberte, Etienne, Lambers, Hans, Faucon, Michel-Pierre, Zemunik, Graham, Turner, Benjamin L., Cornelis, Jean-Thomas, and Mahy, Gregory. 2021. "A shift from phenol to silica-based leaf defences during long-term soil and ecosystem development." Ecology Letters, https://doi.org/10.1111/ele.13713.
Data from: A shift from phenol to silica-based leaf defenses during long-term soil and ecosystem developmentDOI: info:10.5061/DRYAD.BG79CNP9KDryad
De Tombeur, Félix, Laliberté, Etienne, Lambers, Hans, Faucon, Michel-Pierre, Zemunik, Graham, Turner, Benjamin L., Cornélis, Jean-Thomas, and Mahy, Grégory. 2021. [Dataset] Data from: A shift from phenol to silica-based leaf defenses during long-term soil and ecosystem development. Distributed by Dryad. https://doi.org/10.5061/DRYAD.BG79CNP9K.
Soil microbial communities influencing organic phosphorus mineralization in a coastal dune chronosequence in New ZealandDOI: info:10.1093/femsec/fiab034v. 97No. 4Oxford University Press
Gaiero, Jonathan R., Tosi, Micaela, Bent, Elizabeth, Boitt, Gustavo, Khosla, Kamini, Turner, Benjamin L., Richardson, Alan E., Condron, Leo M., and Dunfield, Kari E. 2021. "Soil microbial communities influencing organic phosphorus mineralization in a coastal dune chronosequence in New Zealand." FEMS microbiology ecology, 97, (4). https://doi.org/10.1093/femsec/fiab034.
Traits related to efficient acquisition and use of phosphorus promote diversification in Proteaceae in phosphorus-impoverished landscapesDOI: info:10.1007/s11104-021-04886-0Springer
Hayes, Patrick E., Nge, Francis J., Cramer, Michael D., Finnegan, Patrick M., Fu, Peili, Hopper, Stephen D., Oliveira, Rafael S., Turner, Benjamin L., Zemunik, Graham, Zhong, Hongtao, and Lambers, Hans. 2021. "Traits related to efficient acquisition and use of phosphorus promote diversification in Proteaceae in phosphorus-impoverished landscapes." Plant and Soil, https://doi.org/10.1007/s11104-021-04886-0.
Nutrient availability predicts multiple stem frequency, an indicator of species resprouting capacity in tropical forestsDOI: info:10.1111/1365-2745.13585Wiley
Heineman, Katherine D., Turner, Benjamin L., and Dalling, James W. 2021. "Nutrient availability predicts multiple stem frequency, an indicator of species resprouting capacity in tropical forests." Journal of Ecology, https://doi.org/10.1111/1365-2745.13585.
Nitrogen deposition accelerates soil carbon sequestration in tropical forestsDOI: info:10.1073/pnas.2020790118v. 118No. 16National Academy of Sciences of the United States of America
Lu, Xiankai, Vitousek, Peter M., Mao, Qinggong, Gilliam, Frank S., Luo, Yiqi, Turner, Benjamin L., Zhou, Guoyi, and Mo, Jiangming. 2021. "Nitrogen deposition accelerates soil carbon sequestration in tropical forests." Proceedings of the National Academy of Sciences of the United States of America, 118, (16). https://doi.org/10.1073/pnas.2020790118.
Influence of neighbourhoods on the extent and compactness of tropical tree crowns and root systemsDOI: info:10.1007/s00468-021-02146-3Springer Heidelberg
Madsen, Christopher, Kunz, Matthias, von Oheimb, Goddert, Hall, Jefferson, Sinacore, Katherine, Turner, Benjamin L., and Potvin, Catherine. 2021. "Influence of neighbourhoods on the extent and compactness of tropical tree crowns and root systems." Trees-Structure and Function, https://doi.org/10.1007/s00468-021-02146-3.
Density dependence and habitat heterogeneity regulate seedling survival in a North American temperate forestDOI: info:10.1016/j.foreco.2020.118722v. 480Elsevier118722–118722
Magee, Lukas, Wolf, Amy, Howe, Robert, Schubbe, Jonathan, Hagenow, Kari, and Turner, Benjamin. 2021. "Density dependence and habitat heterogeneity regulate seedling survival in a North American temperate forest." Forest Ecology and Management, 480 118722–118722. https://doi.org/10.1016/j.foreco.2020.118722.
Demographic consequences of foraging ecology explain genetic diversification in Neotropical bird species (vol 24, pg 563, 2021)DOI: info:10.1111/ele.13711v. 24No. 6WILEY1293–1293
Miller, Matthew J., Bermingham, Eldredge, Turner, Benjamin L., Lipshutz, Sara E., Touchon, Justin C., Johnson, Andrew B., and Winker, Kevin. 2021. "Demographic consequences of foraging ecology explain genetic diversification in Neotropical bird species (vol 24, pg 563, 2021)." Ecology Letters, 24, (6) 1293–1293. https://doi.org/10.1111/ele.13711.
Demographic consequences of foraging ecology explain genetic diversification in Neotropical bird speciesDOI: info:10.1111/ele.13674v. 24No. 3Wiley563–571
Miller, Matthew J., Bermingham, Eldredge, Turner, Benjamin L., Touchon, Justin C., Johnson, Andrew B., and Winker, Kevin. 2021. "Demographic consequences of foraging ecology explain genetic diversification in Neotropical bird species." Ecology Letters, 24, (3) 563–571. https://doi.org/10.1111/ele.13674.