A global Fine-Root Ecology Database to address below-ground challenges in plant ecology.
Colleen M. Iversen,M. Luke McCormack,A. Shafer Powell,Christopher B. Blackwood,Grégoire T. Freschet,Jens Kattge,Catherine Roumet,Daniel B Stover,Nadejda A. Soudzilovskaia,Oscar J. Valverde-Barrantes,Oscar J. Valverde-Barrantes,Peter M. van Bodegom,Cyrille Violle +12 more
TLDR
This Viewpoint addresses the need for a centralized fine-root trait database, and introduces the Fine-Root Ecology Database (FRED), which so far includes > 70 000 observations encompassing a broad range of root traits and also includes associated environmental data.Abstract:
Variation and tradeoffs within and among plant traits are increasingly being harnessed by empiricists and modelers to understand and predict ecosystem processes under changing environmental conditions. While fine roots play an important role in ecosystem functioning, fine-root traits are underrepresented in global trait databases. This has hindered efforts to analyze fine-root trait variation and link it with plant function and environmental conditions at a global scale. This Viewpoint addresses the need for a centralized fine-root trait database, and introduces the Fine-Root Ecology Database (FRED, http://roots.ornl.gov) which so far includes > 70 000 observations encompassing a broad range of root traits and also includes associated environmental data. FRED represents a critical step toward improving our understanding of below-ground plant ecology. For example, FRED facilitates the quantification of variation in fine-root traits across root orders, species, biomes, and environmental gradients while also providing a platform for assessments of covariation among root, leaf, and wood traits, the role of fine roots in ecosystem functioning, and the representation of fine roots in terrestrial biosphere models. Continued input of observations into FRED to fill gaps in trait coverage will improve our understanding of changes in fine-root traits across space and time.read more
Citations
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The effect of drought and season on root life span in temperate arbuscular mycorrhizal and ectomycorrhizal tree species
TL;DR: Differences in fine root life span between four AM and four ECM tree species using mini‐rhizotrons in a factorial drought experiment in large mesocosms indicate morphological and architectural traits that predictRoot life span across tree species, and indicate fundamental differences in the environmental response of root life spans in young AM and ECM trees.
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Trait covariance: the functional warp of plant diversity?
TL;DR: The goals of the meeting were to assess the progress made in the study and use of plant trait variation and covariation to reveal tradeoffs, constraints, and strategy in plant function, and to identify the current frontiers in trait-based ecology.
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Data Sharing and Scientific Impact in Eddy Covariance Research
TL;DR: Examination of how data sharing is related to scientific impact in the field of eddy covariance found that data sharers are disproportionately high‐impact researchers, and vice versa; they also note strong regional differences in EC data‐sharing norms.
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Tree mycorrhizal type mediates the strength of negative density dependence in temperate forests
TL;DR: In this paper, the authors examined seedling and sapling survival in two temperate oldgrowth forests (broad-leaved pine and spruce-fir forests) in Northeast China, to evaluate the effects of both conspecific and heterospecific neighbour density, as well as the soil and light environments, on the survival of AM and EM dependent trees at early life stages.
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Bringing function to structure: Root–soil interactions shaping phosphatase activity throughout a soil profile in Puerto Rico
Kristine Grace Cabugao,Kristine Grace Cabugao,Daniela Yaffar,Daniela Yaffar,Nathan Stenson,Joanne Childs,Jana R. Phillips,Melanie A. Mayes,Xiaojuan Yang,David J. Weston,Richard J. Norby,Richard J. Norby +11 more
TL;DR: In this article, the authors measured both root and soil phosphatase throughout depth and alongside a variety of root-and soil factors to better understand the potential of roots and soil biota to increase P availability and to constrain estimates of the biochemical mineralization within ecosystem models.
References
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TL;DR: This new handbook has a better balance between whole-plant traits, leaf traits, root and stem traits and regenerative traits, and puts particular emphasis on traits important for predicting species’ effects on key ecosystem properties.
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