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Your search keyword '"Valverde-Barrantes, Oscar J"' showing total 21 results
Start Over Author "Valverde-Barrantes, Oscar J" Journal new phytologist
21 results on '"Valverde-Barrantes, Oscar J"'

1. Toward a coordinated understanding of hydro‐biogeochemical root functions in tropical forests for application in vegetation models

Author

Cusack, Daniela F., primary, Christoffersen, Bradley, additional, Smith‐Martin, Chris M., additional, Andersen, Kelly M., additional, Cordeiro, Amanda L., additional, Fleischer, Katrin, additional, Wright, S. Joseph, additional, Guerrero‐Ramírez, Nathaly R., additional, Lugli, Laynara F., additional, McCulloch, Lindsay A., additional, Sanchez‐Julia, Mareli, additional, Batterman, Sarah A., additional, Dallstream, Caroline, additional, Fortunel, Claire, additional, Toro, Laura, additional, Fuchslueger, Lucia, additional, Wong, Michelle Y., additional, Yaffar, Daniela, additional, Fisher, Joshua B., additional, Arnaud, Marie, additional, Dietterich, Lee H., additional, Addo‐Danso, Shalom D., additional, Valverde‐Barrantes, Oscar J., additional, Weemstra, Monique, additional, Ng, Jing Cheng, additional, and Norby, Richard J., additional

Published
2024
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3. Corrigendum

Author

Yan, Han, primary, Freschet, Grégoire T., additional, Wang, Huimin, additional, Hogan, James Aaron, additional, Li, Shenggong, additional, Valverde‐Barrantes, Oscar J., additional, Fu, Xiaoli, additional, Wang, Ruili, additional, Dai, Xiaoqin, additional, Jiang, Lei, additional, Meng, Shengwang, additional, Yang, Fengting, additional, Zhang, Miaomiao, additional, and Kou, Liang, additional

Published
2023
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5. Corrigendum

Author

Bengough, A. Glyn, primary, Blancaflor, Elison B., additional, Brunner, Ivano, additional, Comas, Louise H., additional, Freschet, Grégoire T., additional, Gessler, Arthur, additional, Iversen, Colleen M., additional, Janěcek, Štěpán, additional, Kliměsová, Jitka, additional, Lambers, Hans, additional, McCormack, M. Luke, additional, Meier, Ina C., additional, Mommer, Liesje, additional, Pagès, Loïc, additional, Poorter, Hendrik, additional, Postma, Johannes A., additional, Rewald, Boris, additional, Rose, Laura, additional, Roumet, Catherine, additional, Ryser, Peter, additional, Salmon, Verity, additional, Scherer‐Lorenzen, Michael, additional, Soudzilovskaia, Nadejda A., additional, Tharayil, Nishanth, additional, Valverde‐Barrantes, Oscar J., additional, Weemstra, Monique, additional, Weigelt, Alexandra, additional, Wurzburger, Nina, additional, York, Larry M., additional, and Zadworny, Marcin, additional

Published
2022
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6. Mycorrhizal symbiosis pathway and edaphic fertility frame root economics space among tree species

Author

Yan, Han, primary, Freschet, Grégoire T., additional, Wang, Huimin, additional, Hogan, James Aaron, additional, Li, Shenggong, additional, Valverde‐Barrantes, Oscar J., additional, Fu, Xiaoli, additional, Wang, Ruili, additional, Dai, Xiaoqin, additional, Jiang, Lei, additional, Meng, Shengwang, additional, Yang, Fengting, additional, Zhang, Miaomiao, additional, and Kou, Liang, additional

Published
2022
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8. A starting guide to root ecology: strengthening ecological concepts and standardising root classification, sampling, processing and trait measurements

Author

Freschet, Grégoire T., primary, Pagès, Loïc, additional, Iversen, Colleen M., additional, Comas, Louise H., additional, Rewald, Boris, additional, Roumet, Catherine, additional, Klimešová, Jitka, additional, Zadworny, Marcin, additional, Poorter, Hendrik, additional, Postma, Johannes A., additional, Adams, Thomas S., additional, Bagniewska‐Zadworna, Agnieszka, additional, Bengough, A. Glyn, additional, Blancaflor, Elison B., additional, Brunner, Ivano, additional, Cornelissen, Johannes H. C., additional, Garnier, Eric, additional, Gessler, Arthur, additional, Hobbie, Sarah E., additional, Meier, Ina C., additional, Mommer, Liesje, additional, Picon‐Cochard, Catherine, additional, Rose, Laura, additional, Ryser, Peter, additional, Scherer‐Lorenzen, Michael, additional, Soudzilovskaia, Nadejda A., additional, Stokes, Alexia, additional, Sun, Tao, additional, Valverde‐Barrantes, Oscar J., additional, Weemstra, Monique, additional, Weigelt, Alexandra, additional, Wurzburger, Nina, additional, York, Larry M., additional, Batterman, Sarah A., additional, Gomes de Moraes, Moemy, additional, Janeček, Štěpán, additional, Lambers, Hans, additional, Salmon, Verity, additional, Tharayil, Nishanth, additional, and McCormack, M. Luke, additional

Published
2021
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9. An integrated framework of plant form and function: the belowground perspective

Author

Weigelt, Alexandra, primary, Mommer, Liesje, additional, Andraczek, Karl, additional, Iversen, Colleen M., additional, Bergmann, Joana, additional, Bruelheide, Helge, additional, Fan, Ying, additional, Freschet, Grégoire T., additional, Guerrero‐Ramírez, Nathaly R., additional, Kattge, Jens, additional, Kuyper, Thom W., additional, Laughlin, Daniel C., additional, Meier, Ina C., additional, Plas, Fons, additional, Poorter, Hendrik, additional, Roumet, Catherine, additional, Ruijven, Jasper, additional, Sabatini, Francesco Maria, additional, Semchenko, Marina, additional, Sweeney, Christopher J., additional, Valverde‐Barrantes, Oscar J., additional, York, Larry M., additional, and McCormack, M. Luke, additional

Published
2021
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11. Rapid responses of root traits and productivity to phosphorus and cation additions in a tropical lowland forest in Amazonia

Author

Lugli, Laynara F., primary, Rosa, Jessica S., additional, Andersen, Kelly M., additional, Di Ponzio, Raffaello, additional, Almeida, Renata V., additional, Pires, Maria, additional, Cordeiro, Amanda L., additional, Cunha, Hellen F.V., additional, Martins, Nathielly P., additional, Assis, Rafael L., additional, Moraes, Anna C.M., additional, Souza, Sheila T., additional, Aragão, Luiz E.O.C., additional, Camargo, Jose. L., additional, Fuchslueger, Lucia, additional, Schaap, Karst J., additional, Valverde‐Barrantes, Oscar J., additional, Meir, Patrick, additional, Quesada, Carlos A., additional, Mercado, Lina M., additional, and Hartley, Iain P., additional

Published
2021
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12. Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs

Author

Freschet, Grégoire T., primary, Roumet, Catherine, additional, Comas, Louise H., additional, Weemstra, Monique, additional, Bengough, A. Glyn, additional, Rewald, Boris, additional, Bardgett, Richard D., additional, De Deyn, Gerlinde B., additional, Johnson, David, additional, Klimešová, Jitka, additional, Lukac, Martin, additional, McCormack, M. Luke, additional, Meier, Ina C., additional, Pagès, Loïc, additional, Poorter, Hendrik, additional, Prieto, Iván, additional, Wurzburger, Nina, additional, Zadworny, Marcin, additional, Bagniewska‐Zadworna, Agnieszka, additional, Blancaflor, Elison B., additional, Brunner, Ivano, additional, Gessler, Arthur, additional, Hobbie, Sarah E., additional, Iversen, Colleen M., additional, Mommer, Liesje, additional, Picon‐Cochard, Catherine, additional, Postma, Johannes A., additional, Rose, Laura, additional, Ryser, Peter, additional, Scherer‐Lorenzen, Michael, additional, Soudzilovskaia, Nadejda A., additional, Sun, Tao, additional, Valverde‐Barrantes, Oscar J., additional, Weigelt, Alexandra, additional, York, Larry M., additional, and Stokes, Alexia, additional

Published
2021
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16. Limiting similarity shapes the functional and phylogenetic structure of root neighborhoods in a subtropical forest.

Author

Luo, Wenqi, Lan, Runxuan, Chen, Dongxia, Zhang, Bingwei, Xi, Nianxun, Li, Yuanzhi, Fang, Suqing, Valverde‐Barrantes, Oscar J., Eissenstat, David M., Chu, Chengjin, and Wang, Youshi

Subjects
COEXISTENCE of species, NEIGHBORHOODS, COMPETITION (Biology), SOIL sampling
Abstract

Summary: Environmental filtering and limiting similarity mechanisms can simultaneously structure community assemblages. However, how they shape the functional and phylogenetic structure of root neighborhoods remains unclear, hindering the understanding of belowground community assembly processes and diversity maintenance.In a 50‐ha plot in a subtropical forest, China, we randomly sampled > 2700 root clusters from 625 soil samples. Focusing on 10 root functional traits measured on 76 woody species, we examined the functional and phylogenetic structure of root neighborhoods and linked their distributions with environmental cues.Functional overdispersion was pervasive among individual root traits (50% of the traits) and accentuated when different traits were combined. Functional clustering (20% of the traits) seemed to be associated with a soil nutrient gradient with thick roots dominating fertile areas whereas thin roots dominated infertile soils. Nevertheless, such traits also were sorted along other environmental cues, showing multidimensional adaptive trait syndromes. Species relatedness also was an important factor defining root neighborhoods, resulting in significant phylogenetic overdispersion.These results suggest that limiting similarity may drive niche differentiation of coexisting species to reduce competition, and that alternative root strategies could be crucial in promoting root neighborhood resource use and species coexistence. [ABSTRACT FROM AUTHOR]

Published
2021
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17. A framework to assess the carbon supply–consumption balance in plant roots.

Author

Kong, Deliang, Wang, Junjian, Valverde‐Barrantes, Oscar J., and Kardol, Paul

Subjects
PLANT roots, BOTANY, XYLEM, PLANT nutrition, PLANT populations, PLANT physiology, PLANT ecology
Abstract

A framework to assess the carbon supply-consumption balance in plant roots Keywords: carbon supply-consumption hypothesis; nutrient absorption-transportation hypothesis; plant roots; root structural allometry; root cortex and stele; root anatomy EN carbon supply-consumption hypothesis nutrient absorption-transportation hypothesis plant roots root structural allometry root cortex and stele root anatomy 659 664 6 12/21/20 20210115 NES 210115 Introduction Plant uptake and transportation of resources, such as water, nutrients and photosynthates, are crucial for plant growth, and a main driver of ecosystem functioning and community responses to environmental changes (Evert, 2006; Ma I et al i ., 2018; Steidinger I et al i ., 2019). Therefore, the increased number of protoxylem poles with increasing root diameter in combination with the allometry between root stele and ToS could explain the functional coordination between parenchyma C consumption and xylem transportation (Fig. Carbon supply-consumption hypothesis, nutrient absorption-transportation hypothesis, plant roots, root structural allometry, root cortex and stele, root anatomy. [Extracted from the article]

Published
2021
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19. A global Fine‐Root Ecology Database to address below‐ground challenges in plant ecology

Author

Iversen, Colleen M., primary, McCormack, M. Luke, additional, Powell, A. Shafer, additional, Blackwood, Christopher B., additional, Freschet, Grégoire T., additional, Kattge, Jens, additional, Roumet, Catherine, additional, Stover, Daniel B., additional, Soudzilovskaia, Nadejda A., additional, Valverde‐Barrantes, Oscar J., additional, van Bodegom, Peter M., additional, and Violle, Cyrille, additional

Published
2017
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21. Aggregated and complementary: symmetric proliferation, overyielding, and mass effects explain fine-root biomass in soil patches in a diverse temperate deciduous forest landscape.

Author

Valverde‐Barrantes, Oscar J., Smemo, Kurt A., Feinstein, Larry M., Kershner, Mark W., and Blackwood, Christopher B.

Subjects
*DECIDUOUS forests, *DECIDUOUS plants, *BIOMASS, *SOIL fertility, *RENEWABLE energy sources
Abstract

Few studies describe root distributions at the species level in diverse forests, although belowground species interactions and traits are often assumed to affect fine-root biomass ( FRB)., We used molecular barcoding to study how FRB of trees relates to soil characteristics, species identity, root diversity, and root traits, and how these relationships are affected by proximity to ecotones in a temperate forest landscape., We found that soil patch root biomass increased in response to soil resources across all species, and there was little belowground vertical or horizontal spatial segregation among species. Root traits and species relative abundance did not explain significant variation in FRB after correcting for soil fertility. A positive relationship between phylogenetic diversity and FRB indicated significant belowground overyielding attributable to local root diversity. Finally, variation in FRB explained by soil fertility and diversity was reduced near ecotones, but only because of a reduction in biomass in periodically anoxic areas., These results suggest that symmetric responses to soil properties are coupled with complementary species traits and interactions to explain variation in FRB among soil patches. In addition, landscape-level dispersal among habitats and across ecotones helps explain variation in the strength of these relationships in complex landscapes. [ABSTRACT FROM AUTHOR]

Published
2015
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