Chadwick, O.A., Derry, L.A., Vitousek, P.M., Huebert, B.J., Hedin, L.O., 1999. Changing sources of nutrients during four million years of ecosystem development. Nature397, 491–497.

Crews, T.E., Kitayama, K., Fownes, J.H., Riley, R.H., Herbert, D.A., Muellerdombois, D., Vitousek, P.M., 1995. Changes in soil-phosphorus fractions and ecosystem dynamics across a long chronosequence in Hawaii. Ecology76, 1407–1424.

de Tombeur, F., Turner, B.L., Laliberté, E., Lambers, H., Mahy, G., Faucon, M.P., Zemunik, G., Cornelis, J.T., 2020. Plants sustain the terrestrial silicon cycle during ecosystem retrogression. Science369, 1245–1248.

Delgado-Baquerizo, M., Bardgett, R.D., Vitousek, P.M., Maestre, F.T., Williams, M.A., Eldridge, D.J., Lambers, H., Neuhauser, S., Gallardo, A., Garcia-Velazquez, L., Sala, O.E., Abades, S.R., Alfaro, F.D., Berhe, A.A., Bowker, M.A., Currier, C.M., Cutler, N.A., Hart, S.C., Hayes, P.E., Hseu, Z.Y., Kirchmair, M., Pena-Ramirez, V.M., Perez, C.A., Reed, S.C., Santos, F., Siebe, C., Sullivan, B.W., Weber-Grullon, L., Fierer, N., 2019. Changes in belowground biodiversity during ecosystem development. Proceedings of the National Academy of Sciences of the United States of America116, 6891–6896.

Harlavan, Y., Erel, Y., Blum, J.D., 1998. Systematic changes in lead isotopic composition with soil age in glacial granitic terrains. Geochimica et Cosmochimica Acta62, 33–46.

Izquierdo, J.E., Houlton, B.Z., van Huysen, T.L., 2013. Evidence for progressive phosphorus limitation over long-term ecosystem development: Examination of a biogeochemical paradigm. Plant and Soil367, 135–147.

Jenny, H., 1941. Factors of Soil Formation: A System of Quantitative Pedology. McGraw-Hill, New York

Kjær, K.H., Winther Pedersen, M., De Sanctis, B., De Cahsan, B., Korneliussen, T.S., Michelsen, C.S., Sand, K.K., Jelavić, S., Ruter, A.H., Schmidt, A.M.A., Kjeldsen, K.K., Tesakov, A.S., Snowball, I., Gosse, J.C., Alsos, I.G., Wang, Y., Dockter, C., Rasmussen, M., Jørgensen, M.E., Skadhauge, B., Prohaska, A., Kristensen, J.Å., Bjerager, M., Allentoft, M.E., Coissac, E., Alsos, I.G., Coissac, E., Rouillard, A., Simakova, A., Fernandez-Guerra, A., Bowler, C., Macias-Fauria, M., Vinner, L., Welch, J.J., Hidy, A.J., Sikora, M., Collins, M.J., Durbin, R., Larsen, N.K., Willerslev, E., 2022. A 2-million-year-old ecosystem in Greenland uncovered by environmental DNA. Nature612, 283–291.

Lambers, H., Raven, J.A., Shaver, G.R., Smith, S.E., 2008. Plant nutrient-acquisition strategies change with soil age. Trends in Ecology & Evolution23, 95–103.

Shi, Z., Allison, S.D., He, Y.J., Levine, P.A., Hoyt, A.M., Beem-Miller, J., Zhu, Q., Wieder, W.R., Trumbore, S., Randerson, J.T., 2020. The age distribution of global soil carbon inferred from radiocarbon measurements. Nature Geoscience13, 555–562.

Trumbore, S., 2000. Age of soil organic matter and soil respiration: Radiocarbon constraints on belowground C dynamics. Ecological Applications10, 399–411.

Turner, B.L., Condron, L.M., 2013. Pedogenesis, nutrient dynamics, and ecosystem development: the legacy of TW Walker and JK Syers. Plant and Soil367, 1–10.

Vitousek, P.M., Farrington, H., 1997. Nutrient limitation and soil development: Experimental test of a biogeochemical theory. Biogeochemistry37, 63–75.

Walker, T.W., Syers, J.K., 1976. The fate of phosphorus during pedogenesis. Geoderma15, 1–19.