Your search keyword '"Pufahl PK"' showing total 2 results

1. Composition of continental crust altered by the emergence of land plants

Author

Christopher J. Spencer, Neil S. Davies, Thomas M. Gernon, Xi Wang, William J. McMahon, Taylor Rae I. Morrell, Thea Hincks, Peir K. Pufahl, Alexander Brasier, Marina Seraine, Gui-Mei Lu, Spencer, CJ [0000-0003-4264-3701], Davies, NS [0000-0002-0910-8283], Gernon, TM [0000-0002-7717-2092], Morrell, TRI [0000-0003-4082-8497], Hincks, T [0000-0003-4537-6194], Pufahl, PK [0000-0002-9831-7828], Brasier, A [0000-0001-6103-2848], and Apollo - University of Cambridge Repository

Subjects

General Earth and Planetary Sciences, 37 Earth Sciences, 3705 Geology, 3709 Physical Geography and Environmental Geoscience, 14 Life Below Water, 3706 Geophysics, 3703 Geochemistry

Abstract

The evolution of land plants during the Palaeozoic Era transformed Earth’s biosphere 1. Because the Earth's surface and interior are linked by tectonic processes, the linked evolution of the biosphere and sedimentary rocks should be recorded as a near-contemporary shift in the composition of the continental crust. To test this hypothesis, we assessed the isotopic signatures of zircon formed at subduction zones where marine sediments are transported into the mantle 2,3, thereby recording interactions between surface environments and the deep Earth. Using oxygen and lutetium-hafnium isotopes of magmatic zircon that respectively track surface weathering (time-independent) 4 and radiogenic decay (time-dependent) 5, we find a correlation in the composition of continental crust after 430 Myr ago, which is coeval with the onset of enhanced complexity and stability in sedimentary systems related to the evolution of vascular plants. The expansion of terrestrial vegetation brought channelled sand-bed and meandering rivers, muddy floodplains, and thicker soils, lengthening the duration of weathering before final marine deposition 6,7. Collectively, our results suggest that the evolution of vascular plants coupled the degree of weathering and timescales of sediment routing to depositional basins where they were subsequently subducted and melted. The late Palaeozoic isotopic shift of zircon indicates that the greening of the continents was recorded in the deep Earth.

Published

2022

2. A 2200-year record of Andean Condor diet and nest site usage reflects natural and anthropogenic stressors.

Author

Duda MP, Grooms C, Sympson L, Blais JM, Dagodzo D, Feng W, Hayward KM, Julius ML, Kimpe LE, Lambertucci SA, Layton-Matthews D, Lougheed SC, Massaferro J, Michelutti N, Pufahl PK, Vuletich A, and Smol JP

Subjects

Humans, Animals, Cattle, Sheep, Anthropogenic Effects, Birds, Diet, Deer, Falconiformes

Abstract

Understanding how animals respond to large-scale environmental changes is difficult to achieve because monitoring data are rarely available for more than the past few decades, if at all. Here, we demonstrate how a variety of palaeoecological proxies (e.g. isotopes, geochemistry and DNA) from an Andean Condor ( Vultur gryphus ) guano deposit from Argentina can be used to explore breeding site fidelity and the impacts of environmental changes on avian behaviour. We found that condors used the nesting site since at least approximately 2200 years ago, with an approximately 1000-year nesting frequency slowdown from ca 1650 to 650 years before the present (yr BP). We provide evidence that the nesting slowdown coincided with a period of increased volcanic activity in the nearby Southern Volcanic Zone, which resulted in decreased availability of carrion and deterred scavenging birds. After returning to the nest site ca 650 yr BP, condor diet shifted from the carrion of native species and beached marine animals to the carrion of livestock (e.g. sheep and cattle) and exotic herbivores (e.g. red deer and European hare) introduced by European settlers. Currently, Andean Condors have elevated lead concentrations in their guano compared to the past, which is associated with human persecution linked to the shift in diet.

Published

2023