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Max Planck Institut for Biogeochemistry

Scientific publications 2022

1Akinyede, R., Taubert, M., Schrumpf, M., Trumbore, S. E., Küsel, K. (2022). Dark CO2 fixation in temperate beech and pine forest soils. Soil Biology and Biochemistry, 165: 108526. doi:10.1016/j.soilbio.2021.108526.
2Alencar, J. B. R., da Fonseca, C. R. V., Marra, D. M., Baccaro, F. B. (2022). Windthrows promote higher diversity of saproxylic beetles (Coleoptera: Passalidae) in a Central Amazon forest. Insect Conservation and Diversity, 15, 1-8. doi:10.1111/icad.12523.
3Bao, S., Wutzler, T., Koirala, S., Cuntz, M., Ibrom, A., Besnard, S., Walther, S., Sigut, la, L., Moreno, A., Weber, U., Wohlfahrt, G., Cleverly, J., Migliavacca, M., Woodgate, W., Merbold, L., Veenendaal, E., Carvalhais, , N. (2022). Environment-sensitivity functions for gross primary productivity in light use efficiency models. Agricultural and Forest Meteorology, 312: 108708. doi:10.1016/j.agrformet.2021.108708.
4Botia, S., Komiya, S., Marshall, J., Koch, T., Galkowski, M., Lavric, J. V., Gomes-Alves, E., Walter, D., Fisch, G., Pinho, D. M., Nelson, B., Martins, G., Luijkx, I. T., Koren, G., Florentie, L., de Araujo, A. C., Sa, M., Andreae, M. O., Heimann, M., Peters, W., Gerbig, C. (2022). The CO2 record at the Amazon Tall Tower Observatory: a new opportunity to study processes on seasonal and inter-annual scales. Global Change Biology, 28(2), 588-611. doi:10.1111/gcb.15905.
5Burchard-Levine, V., Nieto, H., Riaño, D., Kustas, W. P., Migliavacca, M., El-Madany, T. S., Nelson, J. A., Andreu, A., Carrara, A., Beringer, J., Baldocchi, D., Martín, M. P. (2022). A remote sensing-based three-source energy balance model to improve global estimations of evapotranspiration in semi-arid tree-grass ecosystems. Global Change Biology, 28(4), 1493-1515. doi:10.1111/gcb.16002.
6Byeon, S., Song, W., Park, M., Kim, S., Kim, S., Lee, H. T., Jeon, J., Kim, K., Lee, M., Lim, H., Han, S.-H., Oh, C., Kim, H. S. (2022). Canopy height affects the allocation of photosynthetic carbon and nitrogen in two deciduous tree species under elevated CO2. Journal of Plant Physiology, 268: 153584. doi:10.1016/j.jplph.2021.153584.
7Caldararu, S., Thum, T., Yu, L., Kern, M., Nair, R., Zaehle, S. (2022). Long-term ecosystem nitrogen limitation from foliar delta15N data and a land surface model. Global Change Biology, 28(2), 493-508. doi:10.1111/gcb.15933.
8Dechant, B., Ryu, Y., Badgley, G., Köhler, P., Rascher, U., Migliavacca, M., Zhang, Y., Tagliabue, G., Guan, K., Rossini, M., Goulas, Y., Zeng, Y., Frankenberg, C., Berry, J. A. (2022). NIRVP: A robust structural proxy for sun-induced chlorophyll fluorescence and photosynthesis across scales. Remote Sensing of Environment, 268: 112763. doi:10.1016/j.rse.2021.112763.
9France, J. L., Fisher, R. E., Lowry, D., Allen, G., Andrade, M. F., Bauguitte, S.-J.-B., Bower, K., Broderick, T. J., Daly, M. C., Forster, G., Gondwe, M., Helfter, C., Hoyt, A. M., Jones, A. E., Lanoisellé, M., Moreno, I., Nisbet-Jones, P. B. R., Oram, D., Pasternak, D., Pitt, J. R., Skiba, U., Stephens, M., Wilde, S. E., Nisbet, E. G. (2022). Delta13C methane source signatures from tropical wetland and rice field emissions. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 380(2215): 20200449. doi:10.1098/rsta.2020.0449.
10Groucutt, H. S. (2022). The morphological variability of Maltese ‘cart ruts’ and its implications. Journal of Archaeological Science: Reports, 41: 103287. doi:10.1016/j.jasrep.2021.103287.
11Heckman, K., Hicks Pries, C. E., Lawrence, C. R., Rasmussen, C., Crow, S. E., Hoyt, A. M., von Fromm, S. F., Shi, Z., Stoner, S., McGrath, C., Beem-Miller, J., Berhe, A. A., Blankinship, J. C., Keiluweit, M., Marín-Spiotta, E., Monroe, J. G., Plante, A. F., Schimel, J., Sierra, C., Thompson, A., Wagai, R. (2022). Beyond bulk: Density fractions explain heterogeneity in global soil carbon abundance and persistence. Global Change Biology, 28(3), 1178-1196. doi:10.1111/gcb.16023.
12Heimann, M., Jordan, A., Brand, W. A., Lavric, J. V., Moossen, H., Rothe, M. (2022). The atmospheric ?ask sampling program of MPI-BGC, Version 13, 2022. Max Planck Society, 1-60. doi:10.17617/3.8r.
13Joswig, J., Wirth, C., Schuman, M. C., Kattge, J., Reu, B., Wright, I. J., Sippel, S. D., Rüger, N., Richter, R., Schaepman, M. E., van Bodegom, P. M., Cornelissen, J. H. C., Díaz, S., Hattingh, W. N., Kramer, K., Lens, F., Niinemets, Ü., Reich, P. B., Reichstein, M., Römermann, C., Schrodt, F., Anand, M., Bahn, M., Byun, C., Campetella, G., Cerabolini, B. E. L., Craine, J. M., Gonzalez-Melo, A., Gutiérrez, A. G., He, T., Higuchi, P., Jactel, H., Kraft, N. J. B., Minden, V., Onipchenko, V., Peñuelas, J., Pillar, V. D., Sosinski, Ê., Soudzilovskaia, N. A., Weiher, E., Mahecha, M. D. (2022). Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation. Nature Ecology & Evolution, 6, 36-50. doi:10.1038/s41559-021-01616-8.
14Kleidon, A. (2022). Empowering the Earth system by technology: Using thermodynamics of the Earth system to illustrate a possible sustainable future of the planet. In P. A. Wilderer, M. Grambow, M. Molls, K. Oexle (Eds.), Strategies for Sustainability of the Earth System. Strategies for Sustainability. (pp. 433-444). Cham: Springer. doi:10.1007/978-3-030-74458-8_29.
15Mentaschi, L., Duveiller, G., Zulian, G., Corbane, C., Pesaresi, M., Maes, J., Stocchino, A., Feyen, L. (2022). Global long-term mapping of surface temperature shows intensified intra- city urban heat island extremes. Global Environmental Change, 72: 102441. doi:10.1016/j.gloenvcha.2021.102441.
16Orth, R., O, S., Zscheischler, J., Mahecha, M. D., Reichstein, M. (2022). Contrasting biophysical and societal impacts of hydro-meteorological extremes. Environmental Research Letters, 17(1): 014044. doi:10.1088/1748-9326/ac4139.
17Street, L. E., Caldararu, S. (2022). Why are Arctic shrubs becoming more nitrogen limited? (commentary). New Phytologist, 233(2), 585-587. doi:10.1111/nph.17841.
18Zhang, M., Jin, B.-J., Bi, Q.-F., Li, K.-J., Sun, C.-L., Lin, X.-Y., Zhu, Y.-G. (2022). Variations of earthworm gut bacterial community composition and metabolic functions in coastal upland soil along a 700-year reclamation chronosequence. Science of the Total Environment, 804: 149994. doi:10.1016/j.scitotenv.2021.149994.
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