Automated Author ProfileWehenkel, Christian
Universidad Juárez del Estado de Durango
Wehenkel, Christian
Current S-Index
Sum of Dataset Indices for all datasets
Average Dataset Index per Dataset
Average Dataset Index per dataset
Total Datasets
Total datasets for this author
Average FAIR Score
Average FAIR Score per dataset
Total Citations
Total citations to the author's datasets
Total Mentions
Total mentions of the author's datasets
S-Index Interpretation
The S-Index (Sharing Index) is a comprehensive metric that represents the cumulative impact of all your datasets. It is calculated as the sum of Dataset Index scores across all your claimed datasets.
What it means:
- A higher S-index indicates greater overall impact of your datasets relative to typical datasets in their fields of research
- The S-Index grows as you add more datasets or as existing datasets gain more citations and mentions
- It provides a single number to track your research data impact over time
Current S-Index: 4.3 (sum of 2 datasets Dataset Index scores)
More information here.
S-Index Over Time
Cumulative Citations Over Time
Cumulative Mentions Over Time
Datasets
Increasing drought pressure under anthropogenic climate change may jeopardize the potential of tropical forests to capture carbon in woody biomass and act as a long- term carbon dioxide sink. To evaluate this risk, we assessed drought impacts in 483 tree- ring chronologies from across the tropics and found an overall modest stem growth decline (2.5% with a 95% confi dence interval of 2.2 to 2.7%) during the 10% driest years since 1930. Stem growth declines exceeded 10% in 25% of cases and were larger at hotter and drier sites and for gymnosperms compared with angiosperms. Growth declines generally did not outlast drought years and were partially mitigated by growth stimulation in wet years. Thus, pantropical forest carbon sequestration through stem growth has hitherto shown drought resilience that may, however, diminish under future climate change.
Authors
- Zuidema, Pieter ;
- Groenendijk, Peter ;
- Rahman, Mizanur ;
- Trouet, Valerie ;
- Hubau, Wannes ;
- Finnegan, Patrick ;
- Fayolle, Adeline ;
- Koprowski, Marcin ;
- Eshetu, Zewdu ;
- Acuna-Soto, Rodolfo ;
- Villanueva Diaz, Jose ;
- Nabais, Cristina ;
- D'Arrigo, Rosanne ;
- Locosselli, Giuliano ;
- Touchan, Ramzi ;
- Helle, Gerhard ;
- Pumijumnong, Nathsuda ;
- Doucet, Jean-Louis ;
- Schoengart, Jochen ;
- Quadri, Paulo ;
- Sheppard, Paul ;
- Enquist, Brian ;
- Robertson, Iain ;
- Lopez, Lidio ;
- Villalba, Ricardo ;
- Fan, Ze-Xin ;
- Sanchez-Salguero, Raul ;
- Kaib, J. Mark ;
- Maxwell, Justin ;
- Zhang, Yong-Jiang ;
- Camarero, J. Julio ;
- Barbosa, Ana ;
- Speer, James ;
- Braeuning, Achim ;
- Beeckman, Hans ;
- Wehenkel, Christian ;
- Battipaglia, Giovanna ;
- Gloor, Emanuel ;
- Zavaleta, Erika ;
- Ferrero, M. Eugenia ;
- Silva, Lucas ;
- Manzanedo, Ruben ;
- Zhou, Zhe-Kun ;
- Abiyu, Abrham ;
- Carpillo-Parra, Artemio ;
- Cortes-Cortes, Otoniel ;
- Del Valle, Jorge Ignacio ;
- Esemann-Quadrops, Karin ;
- Galvao, Franklin ;
- Haneca, Kristof ;
- Fenilli, Tatiele Anete Bergamo ;
- Giraldo, Jorge A. ;
- Costa, Clayane Matos ;
- Fichtler, Esther ;
- Dobner Jr, Mário ;
- Assis-Pereira, Gabriel ;
- Botosso, Paulo Cesar ;
- Cornejo-Oviedo, Eladio Heriberto ;
- Brookhouse, Matthew ;
- Dunisch, Oliver ;
- Godoy-Veiga, Milena ;
- Francisco, Kainana ;
- Esquivel-Arriaga, Gerardo ;
- Harley, Grant ;
- Cerano-Parades, Julián ;
- Cervantes-Martinez, Rosalinda ;
- Anholetto, Claudio ;
- de Ridder, Maaike ;
- Buckley, Brendan ;
- Alfaro-Sanchez, Raquel ;
- Fontana, Claudia ;
- Loader, Neil ;
- Ceccantini, Gregório ;
- Aragao, José Roberto Vieira ;
- Centeno-Erguera, Librado R. ;
- Bourland, Nils ;
- Gebrekirstos, Aster ;
- Guerra, Anthony ;
- Astudillo-Sanchez, Claudia C. ;
- Chen, Ya-Jun ;
- Couralet, Camille ;
- Granata-Souza, Daniela ;
- Crispin-de-la-Cruz, Doris Bianca ;
- Cintra, Bruno Barcante Ladvocat ;
- Fu, Pei-Li ;
- Buajan, Supaporn ;
- Adenesky-Filho, Eduardo ;
- Chanthorn, Wirong ;
- David, Diego A. ;
- Brienen, Roel ;
- Islam, Mahmuda ;
- Jiang, Yu-mei ;
- Layme, Eva ;
- Lopez-Hernandez, María I. ;
- Nathalang, Anuttara ;
- Reyes-Flores, Judith ;
- Roig, Fidel Alejandro ;
- Tomazello-Filho, Mario ;
- Velazquez-Perez, Adín H. ;
- Van den Bulcke, Jan ;
- Moors, Eddy ;
- Moreno-Valoyes, Miyer ;
- Ngoma, Justine ;
- Lousada, José Luís Penetra Cerveira ;
- Roquette, José Guilherme ;
- Menezes, Ítallo Romany ;
- Pagotto, Mariana ;
- Lisi, Claudio ;
- Nogueira Jr., Francisco de Carvalho ;
- Therrell, Matthew ;
- Vourlitis, George ;
- Parades-Villanueva, Kathelyn ;
- Portal-Cahuana, Leif ;
- Pucha-Cofrep, Darwin ;
- Heinrich, Ingo ;
- Tor-Ngern, Pantana ;
- Hornink, Bruna ;
- Lobo, Francisco de Almeida ;
- Ponce-Calderon, Laura ;
- Ortega-Rodriguez, Daigard Ricardo ;
- Sousa, Luciana K.V.S. ;
- Longhi-Santos, Tomaz ;
- Oliveira, Juliano ;
- Ramirez, Jorge Andrés ;
- Ortiz, Carmen Eugenia Rodríguez ;
- Montoia, Valdinez Ribeiro ;
- Wils, Tommy ;
- Ticse-Otarola, Ginette ;
- Inga Guillen, Janet ;
- Rubio-Camacho, Ernesto Alonso ;
- Olmedo, Gabriela ;
- Khamisi, Zakia Hassan ;
- Vazquez-Selem, Lorenzo ;
- Mokria, Mulugeta ;
- Marcon, Amanda ;
- Soria-Diaz, Leroy ;
- Muniz-Castro, Miguel Angel ;
- Sass-Klaassen, Ute ;
- Ligot, Gauthier ;
- Perez-de-Lis, Gonzalo ;
- Vlam, Mart ;
- Venegas-Gonzalez, Alejandro ;
- Mendoza-Villa, Omar N. ;
- Ribeiro, Adauto ;
- Slotta, Franziska ;
- Torbenson, Max ;
- Requena-Rojas, Edilson ;
- Scipioni, Marcelo ;
- Leffler, A. Joshua ;
- Panthi, Shankar ;
- Babst, Flurin
How coniferous forests evolved in the Northern Hemisphere remains largely unknown. Unlike most groups of organisms that generally follow a latitudinal diversity gradient, most conifer species in the Northern Hemisphere are distributed in mountainous areas at middle latitudes. It is of great interest to know whether the mid-latitude region has been an evolutionary cradle or museum for conifers and how evolutionary and ecological factors have driven their spatiotemporal evolution. Here, we investigated the macroevolution of Pinus, the largest conifer genus and characteristic of northern temperate coniferous forests, based on nearly complete species sampling. Using 1,662 genes from transcriptome sequences, we reconstructed the first robust species phylogeny and re-estimated divergence times of global pines. We found that approximately 90% of extant pine species originated in the Miocene in sharp contrast to the ancient origin of Pinus, indicating a Neogene re-diversification. Surprisingly, species at middle latitudes are much older than those at other latitudes. This finding, coupled with net diversification rate analysis, indicates that the mid-latitude region has provided an evolutionary museum for global pines. Analyses of 31 environmental variables, together with a comparison of evolutionary rates of niche and phenotypic traits with net diversification rate, found that topographical heterogeneity played a primary role in pine diversification, and the aridity index was decisive for the niche rate shift. Moreover, fire has forced diversification and adaptive evolution of Pinus. Our study highlights the importance of integrating phylogenomic and ecological approaches to address evolution of biological groups at the global scale.
Authors
- Jin, Wei-Tao ;
- Gernandt, David ;
- Wehenkel, Christian ;
- Xia, Xiao-Mei ;
- Wei, Xiao-Xin ;
- Wang, Xiao-Quan