Max Planck Society
Max Planck Institut for Biogeochemistry

Scientific publications 2022

1Agustí-Panareda, A., McNorton, J., Balsamo, G., Baier, B. C., Bousserez, N., Boussetta, S., Brunner, D., Chevallier, F., Choulga, M., Diamantakis, M., Engelen, R., Flemming, J., Granier, C., Guevara, M., van der Gon, H. D., Elguindi, N., Haussaire, J.-M., Jung, M., Janssens-Maenhout, G., Kivi, R., Massart, S., Papale, D., Parrington, M., Razinger, M., Sweeney, C., Vermeulen, A., Walther, S. (2022). Global nature run data with realistic high-resolution carbon weather for the year of the Paris agreement. Scientific Data, 9: 160. doi:10.1038/s41597-022-01228-2.
2Akinyede, 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.
3Alencar, 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.
4Alkama, R., Forzieri, G., Duveiller, G., Grassi, G., Liang, S., Cescatti, A. (2022). Vegetation-based climate mitigation in a warmer and greener World. Nature Communications, 13: 606. doi:10.1038/s41467-022-28305-9.
5Apostolakis, A., Schöning, I., Klaus, V. H., Michalzik, B., Bischoff, W., Boeddinghaus, R. S., Bolliger, R., Fischer, M., Hölzel, N., Kandeler, E., Kleinebecker, T., Manning, P., Marhan, S., Neyret, M., Oelmann, Y., Prati, D., van Kleunen, M., Schwarz, A., Schurig, E., Schrumpf, M. (2022). Direct and plant community mediated effects of management intensity on annual nutrient leaching risk in temperate grasslands. Nutrient Cycling in Agroecosystems, 123, 83-104. doi:10.1007/s10705-022-10209-1.
6Apostolakis, A., Schöning, I., Michalzik, B., Klaus, V. H., Boeddinghaus, R. S., Kandeler, E., Marhan, S., Bolliger, R., Fischer, M., Prati, D., Hänsel, F., Nauss, T., Hölzel, N., Kleinebecker, T., Schrumpf, M. (2022). Drivers of soil respiration across a management intensity gradient in temperate grasslands under drought. Nutrient Cycling in Agroecosystems. doi:10.1007/s10705-022-10224-2.
7Artaxo, P., Hansson, H.-C., Andreae, M. O., Bäck, J., Gomes-Alves, E., Barbosa, H. M. J., Bender, F., Bourtsoukidis, E., Carbone, S., Chi, J., Decesari, S., Després, V. R., Ditas, F., Ezhova, E., Fuzzi, S., Hasselquist, N. J., Heintzenberg, J., Holanda, B. A., Guenther, A., Hakola, H., Heikkinen, L., Kerminen, V.-M., Kontkanen, J., Krejci, R., Kulmala, M., Lavric, J. V., de Leeuw, G., Lehtipalo, K., Machado, L. A. T., McFiggans, G., Franco, M. A. M., Meller, B. B., Morais, F. G., Mohr, C., Morgan, W., Nilsson, M. B., Peichl, M., Petäjä, T., Praß, M., Pöhlker, C., Pöhlker, M. L., Pöschl, U., Von Randow, C., Riipinen, I., Rinne, J., Rizzo, L. V., Rosenfeld, D., Dias, M. A. F. S., Sogacheva, L., Stier, P., Swietlicki, E., Sörgel, M., Tunved, P., Virkkula, A., Wang, J., Weber, B., Yáñez-Serrano, A. M., Zieger, P., Mikhailov, E., Smith, J. N., Kesselmeier, J. (2022). Tropical and boreal forest – atmosphere interactions: a review. Tellus, Series B - Chemical and Physical Meteorology, 24(1), 24-163. doi:10.16993/tellusb.34.
8Azizi-Rad, M., Guggenberger, G., Mad, Y., Sierra, C. A. (2022). Sensitivity of soil respiration rate with respect to temperature, moisture and oxygen under freezing and thawing. Soil Biology and Biochemistry, 165: 108488. doi:10.1016/j.soilbio.2021.108488.
9Bao, 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.
10Baumann, K., Eckhardt, K.-U., Schöning, I., Schrumpf, M., Leinweber, P. (2022). Clay fraction properties and grassland management imprint on soil organic matter composition and stability at molecular level. Soil Use and Management. doi:10.1111/sum.12815.
11Blinkhorn, J., Zanolli, C., Compton, T., Groucutt, H. S., Scerri, E. M. L., Crete, L., Stringer, C., Petraglia, M. D., Blockley, S. (2022). Reply to: ‘No direct evidence for the presence of Nubian Levallois technology and its association with Neanderthals at Shukbah Cave’. Scientific Reports, 12: 1208. doi:10.1038/s41598-022-05049-6.
12Botia, 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.
13Burchard-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.
14Butler, E. E., Wythers, K. R., Flores-Moreno, H., Ricciuto, D. M., Datta, A., Banerjee, A., Atkin, O. K., Kattge, J., Thornton, P. E., Anand, M., Burrascano, S., Byun, C., Cornelissen, J. H. C., Forey, E., Jansen, S., Kramer, K., Minden, V., Reich, P. B. (2022). Increasing functional diversity in a global land surface model illustrates uncertainties related to parameter simplification. Journal of Geophysical Research: Biogeosciences, 127(3): e2021JG006606. doi:10.1029/2021JG006606.
15Byeon, 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.
16Caldararu, 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.
17Cardoni, S., Piredda, R., Denk, T., Grimm, G. W., Papageorgiou, A. C., Schulze, E. D., Scoppola, A., Shanjani, P. S., Suyama, Y., Tomaru, N., Worth, J. R. P., Simeone, M. C. (2022). 5S-IGS rDNA in wind-pollinated trees (Fagus L.) encapsulates 55 million years of reticulate evolution and hybrid origins of modern species. The Plant Journal, 109(4), 909-926. doi:10.1111/tpj.15601.
18Castro-Morales, K., Canning, A., Körtzinger, A., Göckede, M., Küsel, K., Overholt, W. A., Wichard, T., Redlich, S., Arzberger, S., Kolle, O., Zimov, N. (2022). Effects of reversal of water flow in an arctic floodplain river on fluvial emissions of CO2 and CH4. Journal of Geophysical Research: Biogeosciences, 127(1): e2021JG006485. doi:10.1029/2021JG006485.
19Chabbi, A., Rumpel, C., Hagedorn, F., Schrumpf, M., Baveye, P. C. (2022). Editorial: Carbon storage in agricultural and forest soils. Frontiers of Environmental Science, 10: 848572. doi:10.3389/fenvs.2022.848572.
20Chanca, I., Trumbore, S. E., Macario, K., Sierra, C. (2022). Probability distributions of radiocarbon in open linear compartmental systems at steady-state. Journal of Geophysical Research: Biogeosciences, 127(3): e2021JG006673. doi:10.1029/2021JG006673.
21Chartrand, M. M. G., Kai, F. M., Meijer, H. A. J., Moossen, H., Qi, H., Aerts-Bijma, A. T., Cui, Y., Geilmann, H., Mester, Z., Meija, J. (2022). Final report on pilot study CCQM-P211: carbon isotope delta measurements of vanillin. Metrologia, 59(1A): 08005. doi:10.1088/0026-1394/59/1A/08005.
22Chlumská, Z., Liancourt, P., Hartmann, H., Bartoš, M., Altman, J., Dvorský, M., Hubácek, T., Borovec, J., Capková, K., Kotilínek, M., Doleža, J. (2022). Species- and compound-specific dynamics of nonstructural carbohydrates toward the world’s upper distribution of vascular plants. Environmental and Experimental Botany, 201: 104985. doi:10.1016/j.envexpbot.2022.104985.
23Chowdhury, S., Lange, M., Malik, A. A., Goodall, T., Huang, J., Griffiths, R. I., Gleixner, G. (2022). Plants with arbuscular mycorrhizal fungi efficiently acquire Nitrogen from substrate additions by shaping the decomposer community composition and their net plant carbon demand. Plant and Soil, 475, 473-490. doi:10.1007/s11104-022-05380-x.
24Ciais, P., Bastos, A., Chevallier, F., Lauerwald, R., Poulter, B., Canadell, P., Hugelius, G., Jackson, R. B., Jain, A., Jones, M., Kondo, M., Luijkx, I., Patra, P. K., Peters, W., Pongratz, J., Petrescu, A. M. R., Piao, S., Qiu, C., Randow, C. V., Regnier, P., Saunois, M., Scholes, R., Shvidenko, A., Tian, H., Yang, H., Wang, X., Zheng, B. (2022). Definitions and methods to estimate regional land carbon fluxes for the second phase of the REgional Carbon Cycle Assessment and Processes Project (RECCAP-2). Geoscientific Model Development, 15(3), 1289-1316. doi:10.5194/gmd-15-1289-2022.
25Cortés-Andrés, J., Camps-Valls, G., Sippel, S., Székely, E., Sejdinovic, D., Diaz, E., Pérez-Suay, A., Li, Z., Mahecha, M. D., Reichstein, M. (2022). Physics-aware nonparametric regression models for Earth data analysis. Environmental Research Letters, 17(5): 054034. doi:10.1088/1748-9326/ac6762.
26Crisp, D., Dolman, H., Tanhua, T., McKinley, G. A., Hauck, J., Bastos, A., Sitch, S., Eggleston, S., Aich, V. (2022). How well do we understand the land-ocean-atmosphere carbon cycle? Reviews of Geophysics, 60(2): e2021RG000736. doi:10.1029/2021RG000736.
27Custódio, D., Borrego, C., Relvas, H. (2022). Worldwide evaluation of CAMS-EGG4 CO2 data re-analysis at the surface level. Toxics, 10(6): 331. doi:10.3390/toxics10060331.
28Dai, M., Su, J., Zhao, Y., Hofmann, E. E., Cao, Z., Cai, W.-J., Gan, J., Lacroix, F., Laruelle, G. G., Meng, F., Müller, J. D., Regnier, P. A., Wang, G., Wang, Z. (2022). Carbon fluxes in the coastal ocean: Synthesis, boundary processes and future trends. Annual Review of Earth and Planetary Sciences, 50, 593-626. doi:10.1146/annurev-earth-032320-090746.
29Davies-Barnard, T., Zaehle, S., Friedlingstein, P. (2022). Assessment of the impacts of biological nitrogen fixation structural uncertainty in CMIP6 earth system models. Biogeosciences, 19(14), 3491-3503. doi:10.5194/bg-19-3491-2022.
30Dechant, 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.
31Deng, Z., Ciais, P., Tzompa-Sosa, Z. A., Saunois, M., Qiu, C., Tan, C., Sun, T., Ke, P., Cui, Y., Tanaka, K., Lin, X., Thompson, R. L., Tian, H., Yao, Y., Huang, Y., Lauerwald, R., Jain, A. K., Xu, X., Bastos, A., Sitch, S., Palmer, P. I., Lauvaux, T., d’Aspremont, A., Giron, C., Benoit, A., Poulter, B., Chang, J., Petrescu, A. M. R., Davis, S. J., Liu, Z., Grassi, G., Albergel, C., Tubiello, F. N., Perugini, L., Peters, W., Chevallier, F. (2022). Comparing national greenhouse gas budgets reported in UNFCCC inventories against atmospheric inversions. Earth System Science Data, 14, 1639-1675. doi:10.5194/essd-14-1639-2022.
32Denissen, J. M. C., Teuling, A. J., Pitman, A. J., Koirala, S., Migliavacca, M., Li, W., Reichstein, M., Winkler, A., Zhan, C., Orth, R. (2022). Widespread shift from ecosystem energy to water limitation with climate change. Nature Climate Change, 12, 677-684. doi:10.1038/s41558-022-01403-8.
33Fawcett, D., Cunliffe, A. M., Sitch, S., O’Sullivan, M., Anderson, K., Brazier, R. E., Hill, T. C., Anthoni, P., Arneth, A., Arora, V. K., Briggs, P. R., Goll, D. S., Jain, A. K., Li, X., Lombardozzi, D., Nabel, J. E. M. S., Poulter, B., Séférian, R., Tian, H., Viovy, N., Wigneron, J.-P., Wiltshire, A., Zaehle, S. (2022). Assessing model predictions of carbon dynamics in global drylands. Frontiers of Environmental Science & Engineering, 10: 790200. doi:10.3389/fenvs.2022.790200.
34Ferraretto, D., Nair, R., Shah, N. W., Reay, D., Mencuccini, M., Spencer, M., Heal, K. V. (2022). Forest canopy nitrogen uptake can supply entire foliar demand. Functional Ecology, 36(4), 933-949. doi:10.1111/1365-2435.14005.
35Fischer, W., Thomas, C., Zimov, N., Göckede, M. (2022). Grazing enhances carbon cycling, but reduces methane emission in the Siberian Pleistocene Park tundra site. Biogeosciences, 19(6), 1611-1633. doi:10.5194/bg-2021-110.
36France, 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.
37Franco, M. A., Ditas, F., Kremper, L. A., Machado, L. A. T., Andreae, M. O., Araújo, A., Barbosa, H. M. J., de Brito, J. F., Carbone, S., Holanda, B. A., Morais, F. G., Nascimento, J. P., Pöhlker, M. L., Rizzo, L. V., Sá, M., Saturno, J., Walter, D., Wolff, S., Pöschl, U., Artaxo, P., Pöhlker, C. (2022). Occurrence and growth of sub-50 nm aerosol particles in the Amazonian boundary layer. Atmospheric Chemistry and Physics, 22(5), 3469-3492. doi:10.5194/acp-22-3469-2022.
38Fu, Z., Ciais, P., Makowski, D., Bastos, A., Stoy, P. C., Ibrom, A., Knohl, A., Migliavacca, M., Cuntz, M., Šigut, L., Peichl, M., Loustau, D., El-Madany, T. S., Buchmann, N., Gharun, M., Janssens, I., Markwitz, C., Grünwald, T., Rebmann, C., Mölder, M., Varlagin, A., Mammarella, I., Kolari, P., Bernhofer, C., Heliasz, M., Vincke, C., Pitacco, A., Cremonese, E., Foltýnová, L., Wigneron, J.-P. (2022). Uncovering the critical soil moisture thresholds of plant water stress for European ecosystems. Global Change Biology, 28(6), 2111-2123. doi:10.1111/gcb.16050.
39Fu, Z., Ciais, P., Prentice, I. C., Gentine, P., Makowski, D., Bastos, A., Luo, X., Green, J. K., Stoy, P. C., Yang, H., Hajima, T. (2022). Atmospheric dryness reduces photosynthesis along a large range of soil water deficits. Nature Communications, 13: 989. doi:10.1038/s41467-022-28652-7.
40Gensheimer, J., Turner, A. J., Köhler, P., Frankenberg, C., Chen, J. (2022). A convolutional neural network for spatial downscaling of satellite-based solar-induced chlorophyll fluorescence (SIFnet). Biogeosciences, 19(6), 1777-1793. doi:10.5194/bg-19-1777-2022.
41Giraldo, J. A., del Valle, J. I., González-Caro, S., Sierra, C. A. (2022). Intra-annual isotope variations in tree rings reveal growth rhythms within the least rainy season of an ever-wet tropical forest. Trees, 36, 1039-1052. doi:10.1007/s00468-022-02271-7.
42Gleixner, G. (2022). Insights into the known 13C depletion of methane—contribution of the kinetic isotope effects on the serine hydroxymethyltransferase reaction. Frontiers in Chemistry, 9: 698067. doi:10.3389/fchem.2021.698067.
43Gomes-Alves, E., Taylor, T., Robin, Michelle, M., Oliveira, D. P., Schietti, J., Junior, S. D., Zannoni, N., Williams, J., Hartmann, C., Goncalves, J. F. C., Schöngart, J., Wittmann, F., Piedade, , M. T. F. (2022). Seasonal shifts in isoprenoid emission composition from three hyperdominant tree species in central Amazonia. Plant Biology, 24(5), 721-733. doi:10.1111/plb.13419.
44Groucutt, 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.
45Groucutt, H. S., Carleton, W. C., Fenech, K., Gauci, R., Grima, R., Scerri, E. M. L., Stewart, M., Vella, N. C. (2022). The 4.2 ka event and the end of the Maltese “Temple period”. Frontiers in Earth Science, 9: 771683. doi:10.3389/feart.2021.771683.
46Guimarães-Steinicke, C., Weigelt, A., Ebeling, A., Eisenhauer, N., Wirth, C. (2022). Diversity effects on canopy structure change throughout a growing season in experimental grassland communities. Remote Sensing, 14(7): 1557. doi:10.3390/rs14071557.
47Guo, W.-Y., Serra-Diaz, J. M., Schrodt, F., Eiserhardt, W. L., Maitner, B. S., Violle, C., Anand, M., Belluau, M., Bruun, H. H., Byun, C., Catford, J. A., Cerabolii, B. E. L., Chacon-Madrigal, E., Ciccarelli, D., Cornelissen, J. H. C., Dang-Le, A. T., de Frutos, A., Giroldo, A. B., Guo, K., Gutierrez, A. G., Hattingh, W., He, T., Hietz, P., Jansen, S., Kattge, J., Klein, T., Komac, B., Kraft, N. J. B., Kramer, K., Lavorel, S., Lusk, C. H., Martinoo, A. R., Mencuccini, M., Michaletz, S. T., Minden, V., Mori, A. S., Niinemets, Ü., Onoda, Y., Penuelas, J., Pillar, V. D., Pisek, J., Robroek, B. J. M., Schamp, B., Slot, M., Sosinski Jr., E. E., Soudzilovskaia, N. A., Thiffault, N., van Bodegom, P., van der Plas, F., Wright, I. J., Xu, W.-B., Zheng, J., Enquist, B. J., Svenning, J.-C. (2022). High exposure of global tree diversity to human pressure. Proc.Natl.Acad.Sci.USA, 119(25): e2026733119. doi:10.1073/pnas.2026733119.
48Haack, N., Borges, P. A. V., Grimm-Seyfarth, A., Schlegel, M., Wirth, C., Bernhard, D., Brunk, I., Henle, K., Pereira, H. M. (2022). Response of common and rare beetle species to tree species and vertical stratification in a floodplain forest. Insects, 13(2): 161. doi:10.3390/insects13020161.
49Hammond, W. M., Williams, A. P., Abatzoglou, J. T., Adams, H. D., Klein, T., López, R., Sáenz-Romero, C., Hartmann, H., Breshears, D. D., Allen, C. D. (2022). Global field observations of tree die-off reveal hotter-drought fingerprint for Earth’s forests. Nature Communications, 13: 1761. doi:10.1038/s41467-022-29289-2.
50Harris, E., Yu, L., Wang, Y.-P., Mohn, J., Henne, S., Bai, E., Barthel, M., Bauters, M., Boeckx, P., Dorich, C., Farrell, M., Krummel, P. B., Loh, Z. M., Reichstein, M., Six, J., Steinbacher, M., Wells, N. S., Rayner, M. B. P. (2022). Warming and redistribution of nitrogen inputs drive an increase in terrestrial nitrous oxide emission factor. Nature Communications, 13: 4310. doi:10.1038/s41467-022-32001-z.
51Hartmann, H., Bastos, A., Das, A. J., Esquivel-Muelbert, A., Hammond, W. M., Martínez-Vilalta, J., McDowell, N. G., Powers, J. S., Pugh, T. A., Ruthrof, K. X., Allen, C. D. (2022). Climate change risks to global forest health: Emergence of unexpected events of elevated tree mortality worldwide. Annual Review of Plant Biology, 73, 673-702. doi:10.1146/annurev-arplant-102820-012804.
52Hatton, A. G., Collins, B., Schoville, B. J., Wilkins, J. (2022). Ostrich eggshell beads from Ga-Mohana Hill North Rockshelter, southern Kalahari, and the implications for understanding social networks during Marine Isotope Stage 2. PLoS One, 17(6): e0268943. doi:10.1371/journal.pone.0268943.
53Heckman, 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.
54Heiskanen, J., Brümmer, C., Buchmann, N., Calfapietra, C., Chen, H., Gielen, B., Gkritzalis, T., Hammer, S., Hartman, S., Herbst, M., Janssens, I. A., Jordan, A., Juurola, E., Karstens, U., Kasurinen, V., Kruijt, B., Lankreijer, H., Levin, I., Linderson, M.-L., Loustau, D., Merbold, L., Lund Myhre, C., Papale, D., Pavelka, M., Pilegaard, K., Ramonet, M., Rebmann, C., Rinne, J., Rivier, L., Saltikoff, E., Sanders, R., Steinbacher, M., Steinhoff, T., Watson, A., Vermeulen, A. T., Vesala, T., Vítková, G., Kutsch, a. W. (2022). The Integrated Carbon Observation System in Europe. Bulletin of the American Meteorological Society, 103(3), E855-E872. doi:10.1175/BAMS-D-19-0364.1.
55Helbig, M., Živkovic, T., Alekseychik, P., Aurela, M., El-Madany, T. S., Euskirchen, E. S., Flanagan, L. B., Griffis, T. J., Hanson, P. J., Hattakka, J., Helfter, C., Hirano, T., Humphreys, E. R., Kiely, G., Kolka, R. K., Laurila, T., Leahy, P. G., Lohila, A., Mammarella, I., Nilsson, M. B., Panov, A., Parmentier, F. J. W., Peichl, M., Rinne, J., Roman, D. T., Sonnentag, O., Tuittila, E.-S., Ueyama, M., Vesala, T., Vestin, P., Weldon, S., Weslien, P., Zaehle, S. (2022). Warming response of peatland CO2 sink is sensitive to seasonality in warming trends. Nature Climate Change, 12, 743-749. doi:10.1038/s41558-022-01428-z.
56Hellmann, S., Kießling, G., Leiterer, M., Schindewolf, M., Orme, A. M., von Tümpling, W. (2022). Analytical investigations to estimate phosphorus re-dissolution rates in trace levels of selected topsoils and river sediments. Journal of Plant Nutrition and Soil Science. doi:10.1007/s42729-022-00888-8.
57Henry, R. C., Arneth, A., Jung, M., Rabin, S. S., Rounsevell, M. D., Warren, F., Alexander, P. (2022). Global and regional health and food security under strict conservation scenarios. Nature Sustainability, 5, 303-310. doi:10.1038/s41893-021-00844-x.
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