期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 115, 期 48, 页码 12130-12135出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.1809758115
关键词
C-4 grassland expansion; paleofire; polycyclic aromatic hydrocarbons; leaf wax carbon isotopes; Mio-Pliocene
资金
- Geological Society of America Student Grant
- Pennsylvania State Department of Geosciences though the Paul D. Krynine Scholarship
- National Science Foundation Graduate Research Fellowship [DGE1255832]
- Charles A. & June R. P. Ross Research Award
- Charles E. Knopf, Sr., Memorial Scholarship
That fire facilitated the late Miocene C-4 grassland expansion is widely suspected but poorly documented. Fire potentially tied global climate to this profound biosphere transition by serving as a regional-to-local driver of vegetation change. In modern environments, seasonal extremes in moisture amplify the occurrence of fire, disturbing forest ecosystems to create niche space for flammable grasses, which in turn provide fuel for frequent fires. On the Indian subcontinent, C-4 expansion was accompanied by increased seasonal extremes in rainfall (evidenced by delta O-18(carbonate)), which set the stage for fuel accumulation and fire-linked clearance during wet-to-dry seasonal transitions. Here, we test the role of fire directly by examining the abundance and distribution patterns of fire-derived polycyclic aromatic hydrocarbons (PAHs) and terres-trial vegetation signatures in n-alkane carbon isotopes from paleosol samples of the Siwalik Group (Pakistan). Two million years before the C-4 grassland transition, fire-derived PAH concentrations increased as conifer vegetation declined, as indicated by a decrease in retene. This early increase in molecular fire signatures suggests a transition to more fire-prone vegetation such as a C-3 grassland and/or dry deciduous woodland. Between 8.0 and 6.0 million years ago, fire, precipitation seasonality, and C-4-grass dominance increased simultaneously (within resolution) as marked by sharp increases in fire-derived PAHs, delta O-18(carbonate), and C-13 enrichment in n-alkanes diagnostic of C-4 grasses. The strong association of evidence for fire occurrence, vegetation change, and landscape opening indicates that a dynamic fire-grassland feedback system was both a necessary precondition and a driver for grassland ecology during the first emergence of C-4 grasslands.
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