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1. Pantropical variability in tree crown allometry

Author

Panzou, Grace Jopaul Loubota, Fayolle, Adeline, Jucker, Tommaso, Phillips, Oliver L, Bohlman, Stephanie, Banin, Lindsay F, Lewis, Simon L, Affum‐Baffoe, Kofi, Alves, Luciana F, Antin, Cécile, Arets, Eric, Arroyo, Luzmila, Baker, Timothy R, Barbier, Nicolas, Beeckman, Hans, Berger, Uta, Bocko, Yannick Enock, Bongers, Frans, Bowers, Sam, Brade, Thom, Brondizio, Eduardo S, Chantrain, Arthur, Chave, Jerome, Compaore, Halidou, Coomes, David, Diallo, Adama, Dias, Arildo S, Dimobe, Kangbéni, Djagbletey, Gloria Djaney, Domingues, Tomas, Doucet, Jean‐Louis, Drouet, Thomas, Forni, Eric, Godlee, John L, Goodman, Rosa C, Gourlet‐Fleury, Sylvie, Hien, Fidele, Iida, Yoshiko, Ilondea, Bhely Angoboy, Muledi, Jonathan Ilunga, Jacques, Pierre, Kuyah, Shem, López‐Portillo, Jorge, Loumeto, Jean Joël, Marimon‐Junior, Ben Hur, Marimon, Beatriz Schwantes, Mensah, Sylvanus, Mitchard, Edward TA, Moncrieff, Glenn R, Narayanan, Ayyappan, O’Brien, Sean T, Ouedraogo, Korotimi, Palace, Michael W, Pelissier, Raphael, Ploton, Pierre, Poorter, Lourens, Ryan, Casey M, Saiz, Gustavo, Santos, Karin, Schlund, Michael, Sellan, Giacomo, Sonke, Bonaventure, Sterck, Frank, Thibaut, Quentin, Van Hoef, Yorick, Veenendaal, Elmar, Vovides, Alejandra G, Xu, Yaozhan, Yao, Tze Leong, and Feldpausch, Ted R

Subjects
Environmental Sciences, Ecological Applications, Environmental Management, crown allometry, environment, forest, precipitation, savanna, soil, stand&#8208, level variable, tropical biomes, Ecology
Abstract

Aim: Tree crowns determine light interception, carbon and water exchange. Thus, understanding the factors causing tree crown allometry to vary at the tree and stand level matters greatly for the development of future vegetation modelling and for the calibration of remote sensing products. Nevertheless, we know little about large-scale variation and determinants in tropical tree crown allometry. In this study, we explored the continental variation in scaling exponents of site-specific crown allometry and assessed their relationships with environmental and stand-level variables in the tropics. Location: Global tropics. Time period: Early 21st century. Major taxa studied: Woody plants. Methods: Using a dataset of 87,737 trees distributed among 245 forest and savanna sites across the tropics, we fitted site-specific allometric relationships between crown dimensions (crown depth, diameter and volume) and stem diameter using power-law models. Stand-level and environmental drivers of crown allometric relationships were assessed at pantropical and continental scales. Results: The scaling exponents of allometric relationships between stem diameter and crown dimensions were higher in savannas than in forests. We identified that continental crown models were better than pantropical crown models and that continental differences in crown allometric relationships were driven by both stand-level (wood density) and environmental (precipitation, cation exchange capacity and soil texture) variables for both tropical biomes. For a given diameter, forest trees from Asia and savanna trees from Australia had smaller crown dimensions than trees in Africa and America, with crown volumes for some Asian forest trees being smaller than those of trees in African forests. Main conclusions: Our results provide new insight into geographical variability, with large continental differences in tropical tree crown allometry that were driven by stand-level and environmental variables. They have implications for the assessment of ecosystem function and for the monitoring of woody biomass by remote sensing techniques in the global tropics.

Published
2021

4. Monitoring tides, currents, and waves along coastal habitats using the Mini Buoy.

Author

Ladd, Cai J. T., Vovides, Alejandra G., Wimmler, Marie‐Christin, Schwarz, Christian, and Balke, Thorsten

Subjects
ORBITAL velocity, TIDAL currents, WATER depth, RESTORATION ecology, DETECTION limit
Abstract

Intertidal habitats are shaped by the actions of tides and waves which are difficult to monitor in shallow water. To address this challenge, the "Mini Buoy" and associated open‐source App were recently developed for the low‐cost and long‐term monitoring of tidal inundation and current velocities simultaneously. The Mini Buoy is a bottom‐mounted float that measures tilt to infer near‐bed hydrodynamics. Here, we present significant updates to the Mini Buoy and App. Two new Mini Buoy designs were calibrated: the "Pendant" that requires minimal assembly for deployment, and the "B4+" that can also measure wave orbital velocity. Comparisons against industry‐standard water‐level and velocity sensors deployed in the field showed that each new design was effective at detecting tidal inundation (overall accuracy of 86–97%) and current velocities (R2 = 0.73–0.91; accuracies of ± 0.14–0.22 m s−1; detection limits between 0.02 and 0.8 m s−1). The B4+ could reasonably measure wave orbital velocities (R2 = 0.56; accuracies of ± 0.18 m s−1; detection limits between 0.02 and 0.8 m s−1). Reducing the sampling rate to prolong survey durations did not markedly reduce the precision of velocity measurements, except in the original Mini Buoy design (uncertainty increased by ± 2.11 m s−1 from 1 to 10 s sampling). The updated App enhances user experience, accepts data from any Mini Buoy design, is suitable for generic use across any tidal setting, and presents multiple options to understand and contrast local hydrodynamic regimes. Improvements to the Mini Buoy designs and App offer greater opportunities in monitoring hydrodynamics for purposes including ecosystem restoration and flood risk management. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Contributors

Author

Adams, Janine B., primary, Anthony, Edward J., additional, Arifanti, Virni Budi, additional, Ascough, Philippa, additional, Balke, Thorsten, additional, Banda, Sinegugu P., additional, Beavis, Sara, additional, Berger, Uta, additional, Blanchard, Elodie, additional, Cahoon, Donald R., additional, Chen, Luzhen, additional, Chen, Yining, additional, de Lacerda, Luiz Drude, additional, Eggins, Stephen, additional, Ellison, Joanna C., additional, Feng, Hongyu, additional, Friess, Daniel A., additional, Gardel, Antoine, additional, Gillis, Lucy Gwen, additional, Hassenrück, Christiane, additional, Helfer, Véronique, additional, Huhn, Katrin, additional, Jana, Tapan Kumar, additional, Jennerjahn, Tim C., additional, Johnson, Jaime Leigh, additional, Kelleway, Jeff, additional, Krauss, Ken W., additional, Kusuma, Denny Wijaya, additional, Le Minor, Marine, additional, Lovelock, Catherine E., additional, Lupascu, Massimo, additional, MacKenzie, Richard, additional, Macklin, Paul, additional, McBride, Graham B., additional, McKee, Karen L., additional, Ong, Wei Jian, additional, Pritchard, Mark, additional, Priyono, Bayu, additional, Proisy, Christophe, additional, Rajkaran, Anusha, additional, Raw, Jacqueline L., additional, Ray, Raghab, additional, Roderick, Michael, additional, Rogers, Kerrylee, additional, Rosentreter, Judith, additional, Rovai, Andre S., additional, Saintilan, Neil, additional, Salmo, Severino G., additional, Sasmito, Sigit D., additional, Sefton, Juliet, additional, Sharma, Sahadev, additional, Sidik, Frida, additional, Sillanpää, Mériadec, additional, Sugoro, Irawan, additional, Sukardjo, Sukristijono, additional, Suryaputra, I Gusti Ngurah Agung, additional, Swales, Andrew, additional, Taberima, Sartji, additional, Teo, Rui Xiang, additional, Twilley, Robert R., additional, Ulumuddin, Yaya I., additional, Vovides, Alejandra G., additional, Vulpas, Susan, additional, Walcker, Romain, additional, Ward, Raymond D., additional, Woodroffe, Sarah, additional, Yudha, Ruhuddien Pandu, additional, Zhang, Yihui, additional, and Zimmer, Martin, additional

Published
2021
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9. Urban estuaries and coasts

Author

Naylor, L.A., primary, Kippen, Hugh, additional, MacArthur, M., additional, Hansom, J.D., additional, Vovides, Alejandra G., additional, Zaldívar-Jiménez, Arturo, additional, and Pérez-Ceballos, Rosela, additional

Published
2020
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10. Locally led adaptation is key to ending deforestation

Author

Rahman, M. Feisal, primary, Ladd, Cai J.T., additional, Large, Andy, additional, Banerjee, Sumana, additional, Vovides, Alejandra G., additional, Henderson, Andrew C.G., additional, Renaud, Fabrice G., additional, Balke, Thorsten, additional, Wood, Libby, additional, Le, Hue, additional, and Huq, Saleem, additional

Published
2023
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11. Tallo: A global tree allometry and crown architecture database

Author

Jucker, Tommaso, primary, Fischer, Fabian Jörg, additional, Chave, Jérôme, additional, Coomes, David A., additional, Caspersen, John, additional, Ali, Arshad, additional, Loubota Panzou, Grace Jopaul, additional, Feldpausch, Ted R., additional, Falster, Daniel, additional, Usoltsev, Vladimir A., additional, Adu‐Bredu, Stephen, additional, Alves, Luciana F., additional, Aminpour, Mohammad, additional, Angoboy, Ilondea B., additional, Anten, Niels P. R., additional, Antin, Cécile, additional, Askari, Yousef, additional, Muñoz, Rodrigo, additional, Ayyappan, Narayanan, additional, Balvanera, Patricia, additional, Banin, Lindsay, additional, Barbier, Nicolas, additional, Battles, John J., additional, Beeckman, Hans, additional, Bocko, Yannick E., additional, Bond‐Lamberty, Ben, additional, Bongers, Frans, additional, Bowers, Samuel, additional, Brade, Thomas, additional, van Breugel, Michiel, additional, Chantrain, Arthur, additional, Chaudhary, Rajeev, additional, Dai, Jingyu, additional, Dalponte, Michele, additional, Dimobe, Kangbéni, additional, Domec, Jean‐Christophe, additional, Doucet, Jean‐Louis, additional, Duursma, Remko A., additional, Enríquez, Moisés, additional, van Ewijk, Karin Y., additional, Farfán‐Rios, William, additional, Fayolle, Adeline, additional, Forni, Eric, additional, Forrester, David I., additional, Gilani, Hammad, additional, Godlee, John L., additional, Gourlet‐Fleury, Sylvie, additional, Haeni, Matthias, additional, Hall, Jefferson S., additional, He, Jie‐Kun, additional, Hemp, Andreas, additional, Hernández‐Stefanoni, José L., additional, Higgins, Steven I., additional, Holdaway, Robert J., additional, Hussain, Kiramat, additional, Hutley, Lindsay B., additional, Ichie, Tomoaki, additional, Iida, Yoshiko, additional, Jiang, Hai‐sheng, additional, Joshi, Puspa Raj, additional, Kaboli, Hasan, additional, Larsary, Maryam Kazempour, additional, Kenzo, Tanaka, additional, Kloeppel, Brian D., additional, Kohyama, Takashi, additional, Kunwar, Suwash, additional, Kuyah, Shem, additional, Kvasnica, Jakub, additional, Lin, Siliang, additional, Lines, Emily R., additional, Liu, Hongyan, additional, Lorimer, Craig, additional, Loumeto, Jean‐Joël, additional, Malhi, Yadvinder, additional, Marshall, Peter L., additional, Mattsson, Eskil, additional, Matula, Radim, additional, Meave, Jorge A., additional, Mensah, Sylvanus, additional, Mi, Xiangcheng, additional, Momo, Stéphane, additional, Moncrieff, Glenn R., additional, Mora, Francisco, additional, Nissanka, Sarath P., additional, O'Hara, Kevin L., additional, Pearce, Steven, additional, Pelissier, Raphaël, additional, Peri, Pablo L., additional, Ploton, Pierre, additional, Poorter, Lourens, additional, Pour, Mohsen Javanmiri, additional, Pourbabaei, Hassan, additional, Dupuy‐Rada, Juan Manuel, additional, Ribeiro, Sabina C., additional, Ryan, Casey, additional, Sanaei, Anvar, additional, Sanger, Jennifer, additional, Schlund, Michael, additional, Sellan, Giacomo, additional, Shenkin, Alexander, additional, Sonké, Bonaventure, additional, Sterck, Frank J., additional, Svátek, Martin, additional, Takagi, Kentaro, additional, Trugman, Anna T., additional, Ullah, Farman, additional, Vadeboncoeur, Matthew A., additional, Valipour, Ahmad, additional, Vanderwel, Mark C., additional, Vovides, Alejandra G., additional, Wang, Weiwei, additional, Wang, Li‐Qiu, additional, Wirth, Christian, additional, Woods, Murray, additional, Xiang, Wenhua, additional, Ximenes, Fabiano de Aquino, additional, Xu, Yaozhan, additional, Yamada, Toshihiro, additional, and Zavala, Miguel A., additional

Published
2022
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13. Tallo: a global tree allometry and crown architecture database

Author

Jucker, Tommaso, Fischer, Fabian Jörg, Chave, Jérôme, Coomes, David A., Caspersen, John, Ali, Arshad, Loubota Panzou, Grace Jopaul, Feldpausch, Ted R., Falster, Daniel, Usoltsev, Vladimir A., Adu‐Bredu, Stephen, Alves, Luciana F., Aminpour, Mohammad, Angoboy, Ilondea B., Anten, Niels P.R., Antin, Cécile, Askari, Yousef, Muñoz, Rodrigo, Ayyappan, Narayanan, Balvanera, Patricia, Banin, Lindsay, Barbier, Nicolas, Battles, John J., Beeckman, Hans, Bocko, Yannick E., Bond‐Lamberty, Ben, Bongers, Frans, Bowers, Samuel, Brade, Thomas, van Breugel, Michiel, Chantrain, Arthur, Chaudhary, Rajeev, Dai, Jingyu, Dalponte, Michele, Dimobe, Kangbéni, Domec, Jean‐Christophe, Doucet, Jean‐Louis, Duursma, Remko A., Enríquez, Moisés, van Ewijk, Karin Y., Farfán‐Rios, William, Fayolle, Adeline, Forni, Eric, Forrester, David I., Gilani, Hammad, Godlee, John L., Gourlet‐Fleury, Sylvie, Haeni, Matthias, Hall, Jefferson S., He, Jie‐Kun, Hemp, Andreas, Hernández‐Stefanoni, José L., Higgins, Steven I., Holdaway, Robert J., Hussain, Kiramat, Hutley, Lindsay B., Ichie, Tomoaki, Iida, Yoshiko, Jiang, Hai‐sheng, Joshi, Puspa Raj, Kaboli, Hasan, Larsary, Maryam Kazempour, Kenzo, Tanaka, Kloeppel, Brian D., Kohyama, Takashi, Kunwar, Suwash, Kuyah, Shem, Kvasnica, Jakub, Lin, Siliang, Lines, Emily R., Liu, Hongyan, Lorimer, Craig, Loumeto, Jean‐Joël, Malhi, Yadvinder, Marshall, Peter L., Mattsson, Eskil, Matula, Radim, Meave, Jorge A., Mensah, Sylvanus, Mi, Xiangcheng, Momo, Stéphane, Moncrieff, Glenn R., Mora, Francisco, Nissanka, Sarath P., O'Hara, Kevin L., Pearce, Steven, Pelissier, Raphaël, Peri, Pablo L., Ploton, Pierre, Poorter, Lourens, Pour, Mohsen Javanmiri, Pourbabaei, Hassan, Dupuy‐Rada, Juan Manuel, Ribeiro, Sabina C., Ryan, Casey, Sanaei, Anvar, Sanger, Jennifer, Schlund, Michael, Sellan, Giacomo, Shenkin, Alexander, Sonké, Bonaventure, Sterck, Frank J., Svátek, Martin, Takagi, Kentaro, Trugman, Anna T., Ullah, Farman, Vadeboncoeur, Matthew A., Valipour, Ahmad, Vanderwel, Mark C., Vovides, Alejandra G., Wang, Weiwei, Wang, Li‐Qiu, Wirth, Christian, Woods, Murray, Xiang, Wenhua, Ximenes, Fabiano de Aquino, Xu, Yaozhan, Yamada, Toshihiro, Zavala, Miguel A., Jucker, Tommaso, Fischer, Fabian Jörg, Chave, Jérôme, Coomes, David A., Caspersen, John, Ali, Arshad, Loubota Panzou, Grace Jopaul, Feldpausch, Ted R., Falster, Daniel, Usoltsev, Vladimir A., Adu‐Bredu, Stephen, Alves, Luciana F., Aminpour, Mohammad, Angoboy, Ilondea B., Anten, Niels P.R., Antin, Cécile, Askari, Yousef, Muñoz, Rodrigo, Ayyappan, Narayanan, Balvanera, Patricia, Banin, Lindsay, Barbier, Nicolas, Battles, John J., Beeckman, Hans, Bocko, Yannick E., Bond‐Lamberty, Ben, Bongers, Frans, Bowers, Samuel, Brade, Thomas, van Breugel, Michiel, Chantrain, Arthur, Chaudhary, Rajeev, Dai, Jingyu, Dalponte, Michele, Dimobe, Kangbéni, Domec, Jean‐Christophe, Doucet, Jean‐Louis, Duursma, Remko A., Enríquez, Moisés, van Ewijk, Karin Y., Farfán‐Rios, William, Fayolle, Adeline, Forni, Eric, Forrester, David I., Gilani, Hammad, Godlee, John L., Gourlet‐Fleury, Sylvie, Haeni, Matthias, Hall, Jefferson S., He, Jie‐Kun, Hemp, Andreas, Hernández‐Stefanoni, José L., Higgins, Steven I., Holdaway, Robert J., Hussain, Kiramat, Hutley, Lindsay B., Ichie, Tomoaki, Iida, Yoshiko, Jiang, Hai‐sheng, Joshi, Puspa Raj, Kaboli, Hasan, Larsary, Maryam Kazempour, Kenzo, Tanaka, Kloeppel, Brian D., Kohyama, Takashi, Kunwar, Suwash, Kuyah, Shem, Kvasnica, Jakub, Lin, Siliang, Lines, Emily R., Liu, Hongyan, Lorimer, Craig, Loumeto, Jean‐Joël, Malhi, Yadvinder, Marshall, Peter L., Mattsson, Eskil, Matula, Radim, Meave, Jorge A., Mensah, Sylvanus, Mi, Xiangcheng, Momo, Stéphane, Moncrieff, Glenn R., Mora, Francisco, Nissanka, Sarath P., O'Hara, Kevin L., Pearce, Steven, Pelissier, Raphaël, Peri, Pablo L., Ploton, Pierre, Poorter, Lourens, Pour, Mohsen Javanmiri, Pourbabaei, Hassan, Dupuy‐Rada, Juan Manuel, Ribeiro, Sabina C., Ryan, Casey, Sanaei, Anvar, Sanger, Jennifer, Schlund, Michael, Sellan, Giacomo, Shenkin, Alexander, Sonké, Bonaventure, Sterck, Frank J., Svátek, Martin, Takagi, Kentaro, Trugman, Anna T., Ullah, Farman, Vadeboncoeur, Matthew A., Valipour, Ahmad, Vanderwel, Mark C., Vovides, Alejandra G., Wang, Weiwei, Wang, Li‐Qiu, Wirth, Christian, Woods, Murray, Xiang, Wenhua, Ximenes, Fabiano de Aquino, Xu, Yaozhan, Yamada, Toshihiro, and Zavala, Miguel A.

Abstract

Data capturing multiple axes of tree size and shape, such as a tree's stem diameter, height and crown size, underpin a wide range of ecological research—from developing and testing theory on forest structure and dynamics, to estimating forest carbon stocks and their uncertainties, and integrating remote sensing imagery into forest monitoring programmes. However, these data can be surprisingly hard to come by, particularly for certain regions of the world and for specific taxonomic groups, posing a real barrier to progress in these fields. To overcome this challenge, we developed the Tallo database, a collection of 498,838 georeferenced and taxonomically standardized records of individual trees for which stem diameter, height and/or crown radius have been measured. These data were collected at 61,856 globally distributed sites, spanning all major forested and non-forested biomes. The majority of trees in the database are identified to species (88%), and collectively Tallo includes data for 5163 species distributed across 1453 genera and 187 plant families. The database is publicly archived under a CC-BY 4.0 licence and can be access from: https://doi.org/10.5281/zenodo.6637599. To demonstrate its value, here we present three case studies that highlight how the Tallo database can be used to address a range of theoretical and applied questions in ecology—from testing the predictions of metabolic scaling theory, to exploring the limits of tree allometric plasticity along environmental gradients and modelling global variation in maximum attainable tree height. In doing so, we provide a key resource for field ecologists, remote sensing researchers and the modelling community working together to better understand the role that trees play in regulating the terrestrial carbon cycle.

Published
2022

14. Tallo database

Author

Jucker, Tommaso, Fischer, Fabian Jörg, Chave, Jérôme, Coomes, David A., Caspersen, John, Ali, Arshad, Loubota Panzou, Grace Jopaul, Feldpausch, Ted R., Falster, Daniel, Usoltsev, Vladimir A., Adu-Bredu, Stephen, Alves, Luciana F., Aminpour, Mohammad, Angoboy, Ilondea B., Anten, Niels P.R., Antin, Cécile, Askari, Yousef, Muñoz, Rodrigo, Ayyappan, Narayanan, Balvanera, Patricia, Banin, Lindsay, Barbier, Nicolas, Battles, John J., Beeckman, Hans, Bocko, Yannick E., Bond-Lamberty, Ben, Bongers, Frans, Bowers, Samuel, Brade, Thomas, van Breugel, Michiel, Chantrain, Arthur, Chaudhary, Rajeev, Dai, Jingyu, Dalponte, Michele, Dimobe, Kangbéni, Domec, Jean Christophe, Doucet, Jean Louis, Duursma, Remko A., Enríquez, Moisés, van Ewijk, Karin Y., Farfán-Rios, William, Fayolle, Adeline, Forni, Eric, Forrester, David I., Gilani, Hammad, Godlee, John L., Gourlet-Fleury, Sylvie, Haeni, Matthias, Hall, Jefferson S., He, Jie Kun, Hemp, Andreas, Hernández-Stefanoni, José L., Higgins, Steven I., Holdaway, Robert J., Hussain, Kiramat, Hutley, Lindsay B., Ichie, Tomoaki, Iida, Yoshiko, Jiang, Hai Sheng, Joshi, Puspa Raj, Kaboli, Hasan, Larsary, Maryam Kazempour, Kenzo, Tanaka, Kloeppel, Brian D., Kohyama, Takashi, Kunwar, Suwash, Kuyah, Shem, Kvasnica, Jakub, Lin, Siliang, Lines, Emily R., Liu, Hongyan, Lorimer, Craig, Loumeto, Jean Joël, Malhi, Yadvinder, Marshall, Peter L., Mattsson, Eskil, Matula, Radim, Meave, Jorge A., Mensah, Sylvanus, Mi, Xiangcheng, Momo, Stéphane, Moncrieff, Glenn R., Mora, Francisco, Nissanka, Sarath P., O'Hara, Kevin L., Pearce, Steven, Pelissier, Raphaël, Peri, Pablo L., Ploton, Pierre, Poorter, Lourens, Pour, Mohsen Javanmiri, Pourbabaei, Hassan, Dupuy-Rada, Juan Manuel, Ribeiro, Sabina C., Ryan, Casey, Sanaei, Anvar, Sanger, Jennifer, Schlund, Michael, Sellan, Giacomo, Shenkin, Alexander, Sonké, Bonaventure, Sterck, Frank J., Svátek, Martin, Takagi, Kentaro, Trugman, Anna T., Ullah, Farman, Vadeboncoeur, Matthew A., Valipour, Ahmad, Vanderwel, Mark C., Vovides, Alejandra G., Wang, Weiwei, Wang, Li Qiu, Wirth, Christian, Woods, Murray, Xiang, Wenhua, de Aquino Ximenes, Fabiano, Xu, Yaozhan, Yamada, Toshihiro, Zavala, Miguel A., Jucker, Tommaso, Fischer, Fabian Jörg, Chave, Jérôme, Coomes, David A., Caspersen, John, Ali, Arshad, Loubota Panzou, Grace Jopaul, Feldpausch, Ted R., Falster, Daniel, Usoltsev, Vladimir A., Adu-Bredu, Stephen, Alves, Luciana F., Aminpour, Mohammad, Angoboy, Ilondea B., Anten, Niels P.R., Antin, Cécile, Askari, Yousef, Muñoz, Rodrigo, Ayyappan, Narayanan, Balvanera, Patricia, Banin, Lindsay, Barbier, Nicolas, Battles, John J., Beeckman, Hans, Bocko, Yannick E., Bond-Lamberty, Ben, Bongers, Frans, Bowers, Samuel, Brade, Thomas, van Breugel, Michiel, Chantrain, Arthur, Chaudhary, Rajeev, Dai, Jingyu, Dalponte, Michele, Dimobe, Kangbéni, Domec, Jean Christophe, Doucet, Jean Louis, Duursma, Remko A., Enríquez, Moisés, van Ewijk, Karin Y., Farfán-Rios, William, Fayolle, Adeline, Forni, Eric, Forrester, David I., Gilani, Hammad, Godlee, John L., Gourlet-Fleury, Sylvie, Haeni, Matthias, Hall, Jefferson S., He, Jie Kun, Hemp, Andreas, Hernández-Stefanoni, José L., Higgins, Steven I., Holdaway, Robert J., Hussain, Kiramat, Hutley, Lindsay B., Ichie, Tomoaki, Iida, Yoshiko, Jiang, Hai Sheng, Joshi, Puspa Raj, Kaboli, Hasan, Larsary, Maryam Kazempour, Kenzo, Tanaka, Kloeppel, Brian D., Kohyama, Takashi, Kunwar, Suwash, Kuyah, Shem, Kvasnica, Jakub, Lin, Siliang, Lines, Emily R., Liu, Hongyan, Lorimer, Craig, Loumeto, Jean Joël, Malhi, Yadvinder, Marshall, Peter L., Mattsson, Eskil, Matula, Radim, Meave, Jorge A., Mensah, Sylvanus, Mi, Xiangcheng, Momo, Stéphane, Moncrieff, Glenn R., Mora, Francisco, Nissanka, Sarath P., O'Hara, Kevin L., Pearce, Steven, Pelissier, Raphaël, Peri, Pablo L., Ploton, Pierre, Poorter, Lourens, Pour, Mohsen Javanmiri, Pourbabaei, Hassan, Dupuy-Rada, Juan Manuel, Ribeiro, Sabina C., Ryan, Casey, Sanaei, Anvar, Sanger, Jennifer, Schlund, Michael, Sellan, Giacomo, Shenkin, Alexander, Sonké, Bonaventure, Sterck, Frank J., Svátek, Martin, Takagi, Kentaro, Trugman, Anna T., Ullah, Farman, Vadeboncoeur, Matthew A., Valipour, Ahmad, Vanderwel, Mark C., Vovides, Alejandra G., Wang, Weiwei, Wang, Li Qiu, Wirth, Christian, Woods, Murray, Xiang, Wenhua, de Aquino Ximenes, Fabiano, Xu, Yaozhan, Yamada, Toshihiro, and Zavala, Miguel A.

Abstract

The Tallo database (v1.0.0) is a collection of 498,838 georeferenced and taxonomically standardized records of individual trees for which stem diameter, height and/or crown radius have been measured. Data were compiled from 61,856 globally distributed sites and include measurements for 5,163 tree species., The Tallo database (v1.0.0) is a collection of 498,838 georeferenced and taxonomically standardized records of individual trees for which stem diameter, height and/or crown radius have been measured. Data were compiled from 61,856 globally distributed sites and include measurements for 5,163 tree species. For a full description of the database, see: Jucker et al. (2022) Tallo – a global tree allometry and crown architecture database. Global Change Biology, https://doi.org/10.1111/gcb.16302. If using the Tallo database in your work please cite the original publication listed above, as well as this repository using the corresponding DOI (10.5281/zenodo.6637599).

Published
2022

15. Macrozoobenthic community assemblage as key indicator for mangrove restoration success in North Sumatra and Aceh, Indonesia

Author

Basyuni, Mohammad, Bimantara, Yuntha, Cuc, Nguyen T.K., Balke, Thorsten, and Vovides, Alejandra G.

Subjects
Ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

The recognition of the high value of mangrove forests and the wide array of ecosystem services they provide has motivated investment in worldwide restoration efforts. However, current metrics of functional restoration (other than seedling survival rates and plant community composition) are often not readily available for local community managers, highlighting an urgency to identify easy-to-measure indicators to assess the functionality of restored mangroves. The macrozoobenthic community, could be such practical indicator, as macrozoobenthic communities are sensitive to changes in their environment, and can be easily surveyed within local managing programs. Focusing on three main mangrove management conditions (natural, planted and naturally regenerated) in North Sumatra and the province of Aceh, Indonesia, we compared vegetation and macrozoobenthic community diversity indices and identified environmental variables that best describe the forest management conditions and their associated macrozoobenthic community assemblage. Results showed that community assemblage, rather than macrozoobenthic diversity index, was associated with management conditions. The highest dissimilarity in macrozoobenthic community assemblages occurred between planted vs. natural mangroves, with non-significant dissimilarity between natural and naturally regenerated mangroves. The Lined Nerite gastropod (Nerita balteata) was identified as an indicator of natural mangroves, and the invasive Giant African snail (Achatina fulica), was abundant in mangrove plantations, but also in natural mangroves bordering harbors, oil palm plantations and aquaculture ponds, suggesting associated anthropogenic pressures. This study showed that the macrozoobenthic community can be used as restoration indicator and, could serve as a baseline to empower monitoring activities and community-based adaptive management practices to improve the outcomes of restoration efforts.

Published
2022

17. Stable Coexistence in a Field-Calibrated Individual-Based Model of Mangrove Forest Dynamics Caused by Inter-Specific Crown Plasticity

Author

Grueters, Uwe, primary, Ibrahim, Mohd Rodila, additional, Schmidt, Hartmut, additional, Tiebel, Katharina, additional, Horn, Hendrik, additional, Pranchai, Aor, additional, Vovides, Alejandra G., additional, Vogt, Juliane, additional, Otero, Viviana, additional, Satyanarayana, Behara, additional, and Dahdouh-Guebas, Farid, additional

Published
2021
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18. Pantropical variability in tree crown allometry

Author

Loubota Panzou, Grace Jopaul, Fayolle, Adeline, Jucker, Tommaso, Phillips, Oliver L., Bohlman, Stephanie, Banin, Lindsay F., Lewis, Simon L., Affum‐Baffoe, Kofi, Alves, Luciana F., Antin, Cécile, Arets, Eric, Arroyo, Luzmila, Baker, Timothy R., Barbier, Nicolas, Beeckman, Hans, Berger, Uta, Bocko, Yannick Enock, Bongers, Frans, Bowers, Sam, Brade, Thom, Brondizio, Eduardo S., Chantrain, Arthur, Chave, Jerome, Compaore, Halidou, Coomes, David, Diallo, Adama, Dias, Arildo S., Dimobe, Kangbéni, Djagbletey, Gloria Djaney, Domingues, Tomas, Doucet, Jean‐Louis, Drouet, Thomas, Forni, Eric, Godlee, John L., Goodman, Rosa C., Gourlet‐Fleury, Sylvie, Hien, Fidele, Iida, Yoshiko, Ilondea, Bhely Angoboy, Ilunga Muledi, Jonathan, Jacques, Pierre, Kuyah, Shem, López‐Portillo, Jorge, Loumeto, Jean Joël, Marimon‐Junior, Ben Hur, Marimon, Beatriz Schwantes, Mensah, Sylvanus, Mitchard, Edward T.A., Moncrieff, Glenn R., Narayanan, Ayyappan, O’Brien, Sean T., Ouedraogo, Korotimi, Palace, Michael W., Pelissier, Raphael, Ploton, Pierre, Poorter, Lourens, Ryan, Casey M., Saiz, Gustavo, Santos, Karin, Schlund, Michael, Sellan, Giacomo, Sonke, Bonaventure, Sterck, Frank, Thibaut, Quentin, Van Hoef, Yorick, Veenendaal, Elmar, Vovides, Alejandra G., Xu, Yaozhan, Yao, Tze Leong, Feldpausch, Ted R., Loubota Panzou, Grace Jopaul, Fayolle, Adeline, Jucker, Tommaso, Phillips, Oliver L., Bohlman, Stephanie, Banin, Lindsay F., Lewis, Simon L., Affum‐Baffoe, Kofi, Alves, Luciana F., Antin, Cécile, Arets, Eric, Arroyo, Luzmila, Baker, Timothy R., Barbier, Nicolas, Beeckman, Hans, Berger, Uta, Bocko, Yannick Enock, Bongers, Frans, Bowers, Sam, Brade, Thom, Brondizio, Eduardo S., Chantrain, Arthur, Chave, Jerome, Compaore, Halidou, Coomes, David, Diallo, Adama, Dias, Arildo S., Dimobe, Kangbéni, Djagbletey, Gloria Djaney, Domingues, Tomas, Doucet, Jean‐Louis, Drouet, Thomas, Forni, Eric, Godlee, John L., Goodman, Rosa C., Gourlet‐Fleury, Sylvie, Hien, Fidele, Iida, Yoshiko, Ilondea, Bhely Angoboy, Ilunga Muledi, Jonathan, Jacques, Pierre, Kuyah, Shem, López‐Portillo, Jorge, Loumeto, Jean Joël, Marimon‐Junior, Ben Hur, Marimon, Beatriz Schwantes, Mensah, Sylvanus, Mitchard, Edward T.A., Moncrieff, Glenn R., Narayanan, Ayyappan, O’Brien, Sean T., Ouedraogo, Korotimi, Palace, Michael W., Pelissier, Raphael, Ploton, Pierre, Poorter, Lourens, Ryan, Casey M., Saiz, Gustavo, Santos, Karin, Schlund, Michael, Sellan, Giacomo, Sonke, Bonaventure, Sterck, Frank, Thibaut, Quentin, Van Hoef, Yorick, Veenendaal, Elmar, Vovides, Alejandra G., Xu, Yaozhan, Yao, Tze Leong, and Feldpausch, Ted R.

Abstract

Aim: Tree crowns determine light interception, carbon and water exchange. Thus, understanding the factors causing tree crown allometry to vary at the tree and stand level matters greatly for the development of future vegetation modelling and for the calibration of remote sensing products. Nevertheless, we know little about large‐scale variation and determinants in tropical tree crown allometry. In this study, we explored the continental variation in scaling exponents of site‐specific crown allometry and assessed their relationships with environmental and stand‐level variables in the tropics. Location: Global tropics. Time period: Early 21st century. Major taxa studied: Woody plants. Methods: Using a dataset of 87,737 trees distributed among 245 forest and savanna sites across the tropics, we fitted site‐specific allometric relationships between crown dimensions (crown depth, diameter and volume) and stem diameter using power‐law models. Stand‐level and environmental drivers of crown allometric relationships were assessed at pantropical and continental scales. Results: The scaling exponents of allometric relationships between stem diameter and crown dimensions were higher in savannas than in forests. We identified that continental crown models were better than pantropical crown models and that continental differences in crown allometric relationships were driven by both stand‐level (wood density) and environmental (precipitation, cation exchange capacity and soil texture) variables for both tropical biomes. For a given diameter, forest trees from Asia and savanna trees from Australia had smaller crown dimensions than trees in Africa and America, with crown volumes for some Asian forest trees being smaller than those of trees in African forests. Main conclusions: Our results provide new insight into geographical variability, with large continental differences in tropical tree crown allometry that were driven by stand‐level and environmental variables. They have implic

Published
2021

20. Pantropical variability in tree crown allometry

Author

Panzou, Grace Jopaul Loubota, Fayolle, Adeline, Jucker, Tommaso, Phillips, Oliver L., Bohlman, Stephanie, Lewis, Simon L., Banin, Lindsay F., Alves, Luciana F., Antin, Cecile, Arets, Eric, Baker, Timothy R., Barbier, Nicolas, Beeckman, Hans, Berger, Uta, Bongers, Frans, Bowers, Sam, Brade, Thom, Brondizio, Eduardo S., Chantrain, Arthur, Chave, Jerome, Dias, Arildo S., Compaore, Halidou, Coomes, David, Diallo, Adama, Dimobe, Kangbeni, Djagbletey, Gloria Djaney, Domingues, Tomas, Doucet, Jean-Louis, Drouet, Thomas, Forni, Eric, Goodman, Rosa, Godlee, John L., Gourlet-Fleury, Sylvie, Hien, Fidele, Iida, Yoshiko, Ilondea, Bhely Angoboy, Jacques, Pierre, Kuyah, Shem, Lopez-Portillo, Jorge, Moncrieff, Glenn R., Marimon-Junior, Ben Hur, Marimon, Beatriz Schwantes, Mensah, Sylvanus, Mitchard, Edward T. A., Narayanan, Ayyappan, O'Brien, Sean T., Ouedraogo, Korotimi, Palace, Michael W., Pelissier, Raphael, Ploton, Pierre, Poorter, Lourens, Ryan, Casey M., Saiz, Gustavo, Santos, Karin, Schlund, Michael, Sellan, Giacomo, Sonke, Bonaventure, Sterck, Frank, Veenendaal, Elmar, Thibaut, Quentin, Van Hoef, Yorick, Vovides, Alejandra G., Xu, Yaozhan, Yao, Tze Leong, and Feldpausch, Ted R.

Subjects
Forest Science
Abstract

Aim Tree crowns determine light interception, carbon and water exchange. Thus, understanding the factors causing tree crown allometry to vary at the tree and stand level matters greatly for the development of future vegetation modelling and for the calibration of remote sensing products. Nevertheless, we know little about large-scale variation and determinants in tropical tree crown allometry. In this study, we explored the continental variation in scaling exponents of site-specific crown allometry and assessed their relationships with environmental and stand-level variables in the tropics.Location Global tropics.Time period Early 21st century.Major taxa studied Woody plants.Methods Using a dataset of 87,737 trees distributed among 245 forest and savanna sites across the tropics, we fitted site-specific allometric relationships between crown dimensions (crown depth, diameter and volume) and stem diameter using power-law models. Stand-level and environmental drivers of crown allometric relationships were assessed at pantropical and continental scales.Results The scaling exponents of allometric relationships between stem diameter and crown dimensions were higher in savannas than in forests. We identified that continental crown models were better than pantropical crown models and that continental differences in crown allometric relationships were driven by both stand-level (wood density) and environmental (precipitation, cation exchange capacity and soil texture) variables for both tropical biomes. For a given diameter, forest trees from Asia and savanna trees from Australia had smaller crown dimensions than trees in Africa and America, with crown volumes for some Asian forest trees being smaller than those of trees in African forests.Main conclusions Our results provide new insight into geographical variability, with large continental differences in tropical tree crown allometry that were driven by stand-level and environmental variables. They have implications for the assessment of ecosystem function and for the monitoring of woody biomass by remote sensing techniques in the global tropics.

Published
2020

21. Pantropical variability in tree crown allometry

Author

Loubota Panzou, Grace Jopaul, primary, Fayolle, Adeline, additional, Jucker, Tommaso, additional, Phillips, Oliver L., additional, Bohlman, Stephanie, additional, Banin, Lindsay F., additional, Lewis, Simon L., additional, Affum‐Baffoe, Kofi, additional, Alves, Luciana F., additional, Antin, Cécile, additional, Arets, Eric, additional, Arroyo, Luzmila, additional, Baker, Timothy R., additional, Barbier, Nicolas, additional, Beeckman, Hans, additional, Berger, Uta, additional, Bocko, Yannick Enock, additional, Bongers, Frans, additional, Bowers, Sam, additional, Brade, Thom, additional, Brondizio, Eduardo S., additional, Chantrain, Arthur, additional, Chave, Jerome, additional, Compaore, Halidou, additional, Coomes, David, additional, Diallo, Adama, additional, Dias, Arildo S., additional, Dimobe, Kangbéni, additional, Djagbletey, Gloria Djaney, additional, Domingues, Tomas, additional, Doucet, Jean‐Louis, additional, Drouet, Thomas, additional, Forni, Eric, additional, Godlee, John L., additional, Goodman, Rosa C., additional, Gourlet‐Fleury, Sylvie, additional, Hien, Fidele, additional, Iida, Yoshiko, additional, Ilondea, Bhely Angoboy, additional, Ilunga Muledi, Jonathan, additional, Jacques, Pierre, additional, Kuyah, Shem, additional, López‐Portillo, Jorge, additional, Loumeto, Jean Joël, additional, Marimon‐Junior, Ben Hur, additional, Marimon, Beatriz Schwantes, additional, Mensah, Sylvanus, additional, Mitchard, Edward T. A., additional, Moncrieff, Glenn R., additional, Narayanan, Ayyappan, additional, O’Brien, Sean T., additional, Ouedraogo, Korotimi, additional, Palace, Michael W., additional, Pelissier, Raphael, additional, Ploton, Pierre, additional, Poorter, Lourens, additional, Ryan, Casey M., additional, Saiz, Gustavo, additional, Santos, Karin, additional, Schlund, Michael, additional, Sellan, Giacomo, additional, Sonke, Bonaventure, additional, Sterck, Frank, additional, Thibaut, Quentin, additional, Van Hoef, Yorick, additional, Veenendaal, Elmar, additional, Vovides, Alejandra G., additional, Xu, Yaozhan, additional, Yao, Tze Leong, additional, and Feldpausch, Ted R., additional

Published
2020
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22. Networking via root grafts - just a whim of nature or a strategy of trees to be more resilient in stressful environments?

Author

Berger, Uta, Schrewe, Falk Raphael, López-Portillo, Jorge, Piou, Cyril, Wimmler, Marie-Christin, and Vovides, Alejandra G.

Abstract

Two of the oldest living trees known on earth, the Pando and the Old Tjikko, are clonal plants. Their longevity has been attributed to the mutual benefit of resource sharing and the accumulation of beneficial somatic mutations. Similar effects are known for mycorrhizal networks and trees connected by grafted roots. Could it be that networking is generally advantageous increasing forest integrity under harsh conditions? Using an ultrasonic Doppler probe, we mapped networks of grafted black mangroves (Avicennia germinans) along inundation gradients in Mexico. To analyse their potential role for mitigating drought stress, we investigated (1) the network topography and (2) the influence of tree characteristics, tree constellations, pore water salinity and redox potential, as well as the microtopography and hydroperiod on the occurrence of root grafts. We found that the number of root grafts increases with tree density. Under stressful saline conditions the number of grafted trees in a plot is larger (~ 52%) than under moderate conditions (~20%). The probability of root grafting is a sigmoid function increasing with the size of the trees, but its shape is very much influenced by pore water salinity. Under more stressful conditions, the inflection point is earlier (smaller trees graft) and steeper (the maximum number of grafted trees is achieved earlier). In stressful conditions the tree networks are small, with 4 - 5 connected trees in average, and have a more linear structure than in moderate conditions. The latter agrees with evolutionary game theory, which predicts that cooperation flourishes most if organisms are strongly pairwise-tied because the costs (for grafting) are quickly payed off by the reciprocal benefits (sharing of water, nutrients and other resources). Our findings thus support the recent hypothesis that root grafting is an evolutionary beneficial, and thus adaptive behavior, which improves resource acquisition by trees.

Published
2019

23. Individual-based modeling to discover the ecological importance of tree networks

Author

Berger, Uta, Wimmler, Marie-Christin, Piou, Cyril, Delay, Etienne, Vovides, Alejandra G., Berger, Uta, Wimmler, Marie-Christin, Piou, Cyril, Delay, Etienne, and Vovides, Alejandra G.

Abstract

Background/Question/Methods Two of the oldest living trees known on earth, the Pando and the Old Tjikko, are clonal plants. Their longevity has been attributed to the mutual benefit of resource sharing and the accumulation of beneficial somatic mutations. Similar effects are known for mycorrhizal networks and trees connected by grafted roots. Could it be that networking is generally advantageous increasing forest integrity under resource limitation or harsh conditions? This would revolutionize our understanding of forest dynamics, which so far is believed to be driven by the inference of competition and facilitation among single trees, and not among single trees and tree networks. Natural root grafting could play a pivotal role in forest resilience, since grafting can be a facilitative interaction potentially increasing individual fitness. To find this out, it is necessary to systematically investigate under which conditions the sharing of resources (e.g. water under drought stress) is beneficial for a group of trees compared to individual trees. Logistical problems hinder such investigations. Individual-based models, however, allow to synthesize the few existing empirical results and to develop new concepts on the functioning of tree networks, the fitness of groups and its impact on forest dynamics. Results/Conclusions We provide an individual-based model serving as a virtual laboratory to investigate the formation of networks in plant populations depending on spatio-temporal patterns of resource availability. As an example, we designed simulation experiments mimicking black mangroves exposed to water stress, and compared the results with field data from Mexico. As expected, root grafting depends on trees constellation, tree density and water scarcity. The probability of root grafting is a sigmoid function increasing with trees size, but its shape is influenced by the dynamics of water limitation. Under more stressful conditions, the reflection point of the functio

Published
2019

24. Physicochemical characteristic, nutrient, and fish production in different types of mangrove forest in North Sumatra and Aceh Provinces of Indonesia.

Author

Basyuni, Mohammad, Slamet, Bejo, Sulistiyono, Nurdin, Munir, Erman, Vovides, Alejandra G, and Bunting, Pete

Subjects
MANGROVE plants, MANGROVE forests, FISH productivity, MANGROVE ecology, OIL palm, FISH ponds, LOCAL foods
Abstract

Mangrove forests are highly productive ecosystems that sustain marine life, including fish communities. This study aimed to analyse mangrove characteristics, physicochemical parameters, nutrient and primary production derived from mangrove litter and estimate the fish production. The study was conducted at five mangrove sites in North Sumatra and the Aceh Provinces, Indonesia. Two sites represented natural forest at North Sumatra and Aceh (Jaring Halus and Langsa). In comparison, two sites were mangroves converted into oil palm plantations (Pulau Sembilan and Pulau Kampai, North Sumatra). The fifth site was a mangrove forest converted into aquacultural ponds (Percut Sei Tuan, North Sumatra). The study displays the dissemination of mangrove species in five different mangrove sites showing diversity. Avicennia spp found in estuarine near a coastal area, Rhizophora spp spread across the sites, and Sonneratia spp were more likely to occur in the mouth of the upstream river. Litter production at the present study site was dominated by Rhizophora spp., followed by Avicennia spp. This finding was very closely related to the nutrients resulting from litter decomposition in the mangrove ecosystem. The primary production value of 870-1,747 g C m-2 year had a significant role as the beginning of the estuary food chain. Our results show a close association between fish productivity and mangrove management, and conservation status. The highest fish production was found in the well-preserved forests (Jaring Halus and Langsa), followed by the sites converted to palm oil plantations (Pulau Sembilan and Pulau Kampai). At the same time, the least fishing productivity was identified at the fishing ponds (Percut Sei Tuan). The present study provides further evidence of the significant role of mangrove ecosystems for fisheries and calls for effective restoration programs to support local food security along the coast of Indonesia. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Individual-based modeling to discover the ecological importance of tree networks

Author

Berger, Uta, Wimmler, Marie-Christin, Cyril Piou, Etienne Delay, and Vovides, Alejandra G.

Abstract

Background/Question/Methods Two of the oldest living trees known on earth, the Pando and the Old Tjikko, are clonal plants. Their longevity has been attributed to the mutual benefit of resource sharing and the accumulation of beneficial somatic mutations. Similar effects are known for mycorrhizal networks and trees connected by grafted roots. Could it be that networking is generally advantageous increasing forest integrity under resource limitation or harsh conditions? This would revolutionize our understanding of forest dynamics, which so far is believed to be driven by the inference of competition and facilitation among single trees, and not among single trees and tree networks. Natural root grafting could play a pivotal role in forest resilience, since grafting can be a facilitative interaction potentially increasing individual fitness. To find this out, it is necessary to systematically investigate under which conditions the sharing of resources (e.g. water under drought stress) is beneficial for a group of trees compared to individual trees. Logistical problems hinder such investigations. Individual-based models, however, allow to synthesize the few existing empirical results and to develop new concepts on the functioning of tree networks, the fitness of groups and its impact on forest dynamics. Results/Conclusions We provide an individual-based model serving as a virtual laboratory to investigate the formation of networks in plant populations depending on spatio-temporal patterns of resource availability. As an example, we designed simulation experiments mimicking black mangroves exposed to water stress, and compared the results with field data from Mexico. As expected, root grafting depends on trees constellation, tree density and water scarcity. The probability of root grafting is a sigmoid function increasing with trees size, but its shape is influenced by the dynamics of water limitation. Under more stressful conditions, the reflection point of the function is earlier (smaller trees graft) and steeper (the maximum number of grafted trees is earlier achieved). Impressively, the tree networks are small with 4 - 5 connected trees in average and have a predominant linear structure. The latter is in agreement with evolutionary game theory, which predicts that cooperation flourishes most if organisms are strongly pairwise tied since the costs (for grafting) are quickly pay-offed by reciprocated benefits (share of water, nutrients etc.). Our findings thus challenge the recent hypothesis that root networking is an evolutionary beneficial, adaptive behavior, which improves resource acquisition of trees favoring its survival under stressful environmental conditions.

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