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The global abundance of tree palms

Muscarella, RE, Emilio, T, Phillips, OL, Lewis, SL, Silk, F, Baker, WJ, Couvreur, TLP, Eiserhardt, WL, Svenning, JC, Affum-Baffoe, K, Aiba, SI, de Almeida, EC, de Almeida, SS, de Oliveira, EA, Álvarez-Dávila, E, Alves, LF, Alvez-Valles, CM, Alvim Carvalho, F, Alzate Guarin, F, Andrade, A , Aragão, LEOC, Araujo Murakami, A, Arroyo, L, Ashton, PS, Aymard Corredor, GA, Baker, TR, Barbosa de Camargo, P, Barlow, J, Bastin, JF, Bengone, NN, Berenguer, E, Berry, N, Blanc, L, Böhning-Gaese, K, Bona, D, Bongers, F, Bradford, M, Brambach, F, Brearley, FQ, Brewer, SW, Camargo, JLC, Campbell, DG, Castilho, CV, Castro, W, Catchpole, D, Cerón Martínez, CE, Chen, S, Chhang, P, Cho, P, Chutipong, W, Clark, C, Collins, M, Comiskey, JA, Corrales Medina, MN, Costa, FRC, Culmsee, H, David-Higuita, H, Davidar, P, del Aguila-Pasquel, J, Derroire, G, Di Fiore, A, Van Do, T, Doucet, JL, Dourdain, A, Drake, DR, Ensslin, A, Erwin, T, Ewango, CEN, Ewers, RM, Fauset, S, Feldpausch, T, Ferreira, J, Ferreira, LL, Fischer, M, Franklin, J, Fredriksson, GM, Gillespie, TW, Gilpin, M, Gonmadje, C, Gunatilleke, AUN, Hakeem, KR, Hall, JS, Hamer, KC, Harris, DJ, Harrison, RD, Hector, A, Hemp, A, Herault, B, Hidalgo Pizango, CG, Honorio Coronado, EN, Hubau, W, Hussain, MS, Ibrahim, FH, Imai, N, Joly, CA, Joseph, S, Kartawinata, K, Kassi, J, Killeen, TJ, Kitayama, K, Klitgård, BB, Kooyman, R, Labrière, N, Larney, E, Laumonier, Y, Laurance, SG, Laurance, WF, Lawes, MJ, Levesley, A, Lisingo, J, Lovejoy, T, Lovett, J, Lu, X, Lykke, AM, Magnusson, WE, Mahayani, NPD, Malhi, Y, Mansor, A, Marcelo Peña, JL, Marimon-Junior, BH, Marshall, AR, Melgaco, K, Mendoza Bautista, C, Mihindou, V, Millet, J, Milliken, W, Mohandass, D, Monteagudo Mendoza, AL, Mugerwa, B, Nagamasu, H, Nagy, L, Naret Seuaturien, , Nascimento, MT, Neill, DA, Neto, LM, Nilus, R, Núñez Vargas, MP, Nurtjahya, E, Nazaré O. de Araújo, R, Onrizal, O, Palacios, WA, Palacios-Ramos, S, Parren, M, Paudel, E, Morandi, PS, Pennington, RT, Pickavance, G, Pipoly III, JJ, Pitman, NCA, Poedjirahajoe, E, Poorter, L, Poulsen, JR, Prasad, PRC, Prieto, A, Puyravaud, JP, Qie, L, Quesada, CA, Ramírez-Angulo, H, Razafimahaimodison, JC, Reitsma, JM, Requena-Rojas, EJ, Restrepo Correa, Z, Reynel Rodriguez, C, Roopsind, A, Rovero, F, Rozak, A, Rudas Lleras, A, Rutishauser, E, Rutten, G, Ruwan Punchi-Manage, , Salomão, RP, Sam, HV, Sarker, SK, Satdichanh, M, Schietti, J, Schmitt, CB, Schwantes Marimon, B, Senbeta, F, Sharma, LN, Sheil, D, Sierra, R, Silva-Espejo, JE, Silveira, M, Sonké, B, Steininger, MK, Steinmetz, R, Stevart, T, Sukumar, R, Sultana, A, Sunderland, T, Suresh, HS, Tang, J, Tanner, E, ter Steege, H, Terborgh, JW, Theilade, I, Timberlake, J, Torres-Lezama, A, Umunay, P, Uriarte, M, Valenzuela Gamarra, L, van de Bult, M, van der Hout, P, Vasquez Martinez, R, Vieira, ICG, Vieira, SA, Vilanova, E, Villalobos Cayo, J, Wang, O, Webb, CO, Webb, EL, White, L, Whitfeld, TJS, Wich, SA, Willcock, S, Wiser, SK, Young, KR, Zakaria, R, Zang, R, Zartman, CE, Zo-Bi, IC and Balslev, H (2020) The global abundance of tree palms. Global Ecology and Biogeography. ISSN 1466-822X

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Abstract

Aim: Palms are an iconic, diverse and often abundant component of tropical ecosystems that provide many ecosystem services. Being monocots, tree palms are evolutionarily, morphologically and physiologically distinct from other trees, and these differences have important consequences for ecosystem services (e.g., carbon sequestration and storage) and in terms of responses to climate change. We quantified global patterns of tree palm relative abundance to help improve understanding of tropical forests and reduce uncertainty about these ecosystems under climate change.
Location: Tropical and subtropical moist forests.
Time period: Current.
Major taxa studied: Palms (Arecaceae).
Methods: We assembled a pantropical dataset of 2,548 forest plots (covering 1,191 ha) and quantified tree palm (i.e., ≥10 cm diameter at breast height) abundance relative to co‐occurring non‐palm trees. We compared the relative abundance of tree palms across biogeographical realms and tested for associations with palaeoclimate stability, current climate, edaphic conditions and metrics of forest structure.
Results: On average, the relative abundance of tree palms was more than five times larger between Neotropical locations and other biogeographical realms. Tree palms were absent in most locations outside the Neotropics but present in >80% of Neotropical locations. The relative abundance of tree palms was more strongly associated with local conditions (e.g., higher mean annual precipitation, lower soil fertility, shallower water table and lower plot mean wood density) than metrics of long‐term climate stability. Life‐form diversity also influenced the patterns; palm assemblages outside the Neotropics comprise many non‐tree (e.g., climbing) palms. Finally, we show that tree palms can influence estimates of above‐ground biomass, but the magnitude and direction of the effect require additional work.
Conclusions: Tree palms are not only quintessentially tropical, but they are also overwhelmingly Neotropical. Future work to understand the contributions of tree palms to biomass estimates and carbon cycling will be particularly crucial in Neotropical forests.

Item Type: Article
Uncontrolled Keywords: 0406 Physical Geography and Environmental Geoscience, 0501 Ecological Applications, 0602 Ecology
Subjects: G Geography. Anthropology. Recreation > GE Environmental Sciences
Q Science > QK Botany
Divisions: Biological & Environmental Sciences (from Sep 19)
Publisher: Wiley
Date Deposited: 10 Jul 2020 12:15
Last Modified: 04 Sep 2021 07:01
URI: https://researchonline.ljmu.ac.uk/id/eprint/13280
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