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Outputs (46)

TRY plant trait database – enhanced coverage and open access (2019)
Journal Article
Kattge, J., Bönisch, G., Díaz, S., Lavorel, S., Prentice, I. C., Leadley, P., Tautenhahn, S., Werner, G. D. A., Aakala, T., Abedi, M., Acosta, A. T. R., Adamidis, G. C., Adamson, K., Aiba, M., Albert, C. H., Alcántara, J. M., Alcázar C, C., Aleixo, I., Ali, H., Amiaud, B., …The Nutrient Network. (2020). TRY plant trait database – enhanced coverage and open access. Global Change Biology, 26(1), 119-188. https://doi.org/10.1111/gcb.14904

© 2019 The Authors. Global Change Biology published by John Wiley & Sons Ltd Plant traits—the morphological, anatomical, physiological, biochemical and phenological characteristics of plants—determine how plants respond to environmental factors, af... Read More about TRY plant trait database – enhanced coverage and open access.

Linking Remote Sensing and Geodiversity and their Traits Relevant to Biodiversity – Part I: Soil Characteristics (2019)
Journal Article
Lausch, A., Baade, J., Bannehr, L., Borg, E., Bumberger, J., Chabrilliat, S., Dietrich, P., Gerighausen, H., Glässer, C., Hacker, J. M., Haase, D., Jagdhuber, T., Jany, S., Jung, A., Karnieli, A., Kraemer, R., Makki, M., Mielke, C., Möller, M., Montzka, C., …Schaepman, M. E. (2019). Linking Remote Sensing and Geodiversity and their Traits Relevant to Biodiversity – Part I: Soil Characteristics. Remote Sensing, 11(20), 1-51. https://doi.org/10.3390/rs11202356

In the face of rapid global change it is imperative to preserve geodiversity for the overall conservation of biodiversity. Geodiversity is important for understanding complex biogeochemical and physical processes and is directly and indirectly linked... Read More about Linking Remote Sensing and Geodiversity and their Traits Relevant to Biodiversity – Part I: Soil Characteristics.

Opinion: To advance sustainable stewardship, we must document not only biodiversity but geodiversity (2019)
Journal Article
Schrodt, F., Bailey, J. J., Kissling, W. D., Rijsdijk, K. F., Seijmonsbergen, A. C., van Ree, D., Hjort, J., Lawley, R. S., Williams, C. N., Anderson, M. G., Beier, P., van Beukering, P., Boyd, D. S., Brilha, J., Carcavilla, L., Dahlin, K. M., Gill, J. C., Gordon, J. E., Gray, M., Grundy, M., …Field, R. (2019). Opinion: To advance sustainable stewardship, we must document not only biodiversity but geodiversity. Proceedings of the National Academy of Sciences, 116(33), 16155-16158. https://doi.org/10.1073/pnas.1911799116

Leaf economics and plant hydraulics drive leaf/wood area ratios (2019)
Journal Article
Mencuccini, M., Rosas, T., Rowland, L., Choat, B., Cornelissen, H., Jansen, S., Kramer, K., Lapenis, A., Manzoni, S., Niinemets, Ü., Reich, P., Schrodt, F., Soudzilovskaia, N., & Martínez-Vilalta, J. (2019). Leaf economics and plant hydraulics drive leaf/wood area ratios. New Phytologist, 224(4), 1544-1556. https://doi.org/10.1111/nph.15998

Biomass and area ratios between leaves, stems and roots regulate many physiological and ecological processes. The Huber value Hv (sapwood area/leaf area ratio) is central to plant water balance and drought responses. However, its coordination with ke... Read More about Leaf economics and plant hydraulics drive leaf/wood area ratios.

Challenges and opportunities for biogeography-What can we still learn from von Humboldt? (2019)
Journal Article
Schrodt, F., Santos, M. J., Bailey, J. J., & Field, R. (2019). Challenges and opportunities for biogeography-What can we still learn from von Humboldt?. Journal of Biogeography, 46(8), 1631-1642. https://doi.org/10.1111/jbi.13616

Alexander von Humboldt was arguably the most influential scientist of his day. Although his fame has since lessened relative to some of his contemporaries, we argue that his influence remains strong-mainly because his approach to science inspired oth... Read More about Challenges and opportunities for biogeography-What can we still learn from von Humboldt?.

Global trait–environment relationships of plant communities (2018)
Journal Article
Hölzel, N., Sporbert, M., Guerin, G. R., Jentsch, A., Neill, D. A., Korolyuk, A. Y., Arfin Khan, M. A. S., Cornelissen, J. H. C., Alvarez-Dávila, E., Henry, G., Myers-Smith, I. H., Munzinger, J., Marcenò, C., Kühn, I., Laughlin, D. C., Lens, F., Loos, J., Orwin, K. H., Louault, F., Lyubenova, M. I., …Knollová, I. (2018). Global trait–environment relationships of plant communities. Nature Ecology and Evolution, 2(12), 1906-1917. https://doi.org/10.1038/s41559-018-0699-8

Plant functional traits directly affect ecosystem functions. At the species level, trait combinations depend on trade-offs representing different ecological strategies, but at the community level trait combinations are expected to be decoupled from t... Read More about Global trait–environment relationships of plant communities.

Satellite remote sensing of ecosystem functions: opportunities, challenges and way forward (2017)
Journal Article
Pettorelli, N., Schulte to Bühne, H., Tulloch, A., Dubois, G., Macinnis-Ng, C., Queirós, A. M., Keith, D. A., Wegmann, M., Schrodt, F., Stellmes, M., Sonnenschein, R., Geller, G. N., Roy, S., Somers, B., Murray, N., Bland, L., Geijzendorffer, I., Kerr, J. T., Broszeit, S., Leitão, P. J., …Nicholson, E. (2018). Satellite remote sensing of ecosystem functions: opportunities, challenges and way forward. Remote Sensing in Ecology and Conservation, 4(2), 71-93. https://doi.org/10.1002/rse2.59

Societal, economic and scientific interests in knowing where biodiversity is, how it is faring and what can be done to efficiently mitigate further biodiversity loss and the associated loss of ecosystem services are at an all‐time high. So far, howev... Read More about Satellite remote sensing of ecosystem functions: opportunities, challenges and way forward.

Monitoring plant functional diversity from space (2016)
Journal Article
Jetz, W., Cavender-Bares, J., Pavlick, R., Schimel, D., Davis, F. W., Asner, G. P., Guralnick, R., Kattge, J., Latimer, A. M., Moorcroft, P., Schaepman, M. E., Schildhauer, M. P., Schneider, F. D., Schrodt, F., Stahl, U., & Ustin, S. L. (2016). Monitoring plant functional diversity from space. Nature Plants, 2(3), Article 16039. https://doi.org/10.1038/NPLANTS.2016.24

The world’s ecosystems are losing biodiversity fast. A satellite mission designed to track changes in plant functional diversity around the globe could deepen our understanding of the pace and consequences of this change and how to manage it.

BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography (2015)
Journal Article
Schrodt Williams, F., Kattge, J., Shan, H., Fazayeli, F., Joswig, J., Banerjee, A., Reichstein, M., Bönisch, G., Díaz, S., Dickie, J., Gillison, A., Karpatne, A., Lavorel, S., Leadley, P., Wirth, C. B., Wright, I. J., Wright, S. J., & Reich, P. B. (2015). BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography. Global Ecology and Biogeography, 24(12), 1510-1521. https://doi.org/10.1111/geb.12335

& Sons Ltd. Aim: Functional traits of organisms are key to understanding and predicting biodiversity and ecological change, which motivates continuous collection of traits and their integration into global databases. Such trait matrices are inherent... Read More about BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography.

BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography: Gap-filling in trait databases (2015)
Journal Article
Schrodt, F., Kattge, J., Shan, H., Fazayeli, F., Joswig, J., Banerjee, A., Reichstein, M., Bönisch, G., Diaz, S., Dickie, J., Gillison, A., Karpatne, A., Lavorel, S., Leadley, P., Wirth, C. B., Wright, I. J., Wright, S. J., & Reich, P. B. (2015). BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography: Gap-filling in trait databases. Global Ecology and Biogeography, 24(12), 1510-1521. https://doi.org/10.1111/geb.12335

Aim:

Functional traits of organisms are key to understanding and predicting biodiversity and ecological change, which motivates continuous collection of traits and their integration into global databases. Such trait matrices are inherently sparse,... Read More about BHPMF - a hierarchical Bayesian approach to gap-filling and trait prediction for macroecology and functional biogeography: Gap-filling in trait databases.