Fossil pollen records reveal a late rise of open-habitat ecosystems in Patagonia

Palazzesi, Luis; Barreda, Viviana

doi:10.1038/ncomms2299

Cited by 82 publications

(54 citation statements)

References 36 publications

(27 reference statements)

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“…As this inland sea contracted during the Late Miocene, it would have left the Patagonian interior more arid and would also have intensified the continentality, with warmer summers and colder winters. The expansion of open-habitat plant lineages by the late Miocene is also consistent with this change in land-sea distribution 24 . Pliocene terrestrial deposits (Río Negro Fm.)…”

Section: Jsupporting

confidence: 63%

Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift

et al. 2014

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The Patagonian steppe-a massive rain-shadow on the lee side of the southern Andes-is assumed to have evolved B15-12 Myr as a consequence of the southern Andean uplift. However, fossil evidence supporting this assumption is limited. Here we quantitatively estimate climatic conditions and plant richness for the interval B10-6 Myr based on the study and bioclimatic analysis of terrestrially derived spore-pollen assemblages preserved in well-constrained Patagonian marine deposits. Our analyses indicate a mesothermal climate, with mean temperatures of the coldest quarter between 11.4°C and 16.9°C (presently B3.5°C) and annual precipitation rarely below 661 mm (presently B200 mm). Rarefied richness reveals a significantly more diverse flora during the late Miocene than today at the same latitude but comparable with that approximately 2,000 km further northeast at mid-latitudes on the Brazilian coast. We infer that the Patagonian desertification was not solely a consequence of the Andean uplift as previously insinuated.

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Section: Jsupporting

confidence: 63%

Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift

et al. 2014

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“…Among factors leading to dietary changes, increasing aridity could have at least triggered the emergence and abundance of new types of vegetation, such as shrublands observed in Patagonia during the second part of the Paleogene (16,29) (Fig. 3C), although forests probably remained dominant until the Middle Miocene in South America (15,39), especially in the northern part (14). Pending more precise environmental data, it seems at least reasonable to assume that the acquisition of a more durable and rapidly efficient dentition allowed notoungulates to widen the spectrum of plants consumed (19,40,41) in being more tolerant toward abrasives, which partly led to their subsequent specializations.…”

Section: Striking Convergent Modifications Of Dental Eruption Patternmentioning

confidence: 99%

Ontogenetic and life history trait changes associated with convergent ecological specializations in extinct ungulate mammals

Rodrigues

Herrel

Billet

2017

Proc. Natl. Acad. Sci. U.S.A.

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Investigating life history traits in mammals is crucial to understand their survival in changing environments. However, these parameters are hard to estimate in a macroevolutionary context. Here we show that the use of dental ontogenetic parameters can provide clues to better understand the adaptive nature of phenotypic traits in extinct species such as South American notoungulates. This recently extinct order of mammals evolved in a context of important geological, climatic, and environmental variations. Interestingly, notoungulates were mostly herbivorous and acquired highcrowned teeth very early in their evolutionary history. We focused on the variations in crown height, dental eruption pattern, and associated body mass of 69 notoungulate taxa, placed in their phylogenetic and geological contexts. We showed that notoungulates evolved higher crowns several times between 45 and 20 Ma, independently of the variation in body mass. Interestingly, the independent acquisitions of ever-growing teeth were systematically accompanied by eruption of molars faster than permanent premolars. These repeated associations of dental innovations have never been documented for other mammals and raise questions on their significance and causal relationships. We suggest that these correlated changes could originate from ontogenetic adjustments favored by structural constraints, and may indicate accelerated life histories. Complementarily, these more durable and efficient dentitions could be selected to cope with important ingestions of abrasive particles in the context of intensified volcanism and increasing aridity. This study demonstrates that assessing both life history and ecological traits allows a better knowledge of the specializations of extinct mammals that evolved under strong environmental constraints. dental ontogeny | hypsodonty | abrasion | notoungulates | South America

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“…These data conclusively rule out the occurrence of grasslands through the sequence analyzed. However, although phytolith and sparse pollen data were originally interpreted as indicating relatively closed, forested habitats (Palazzesi and Barreda, 2012;Strömberg et al, 2013), new research on phytolith micromorphology implies that Patagonian plant communities experienced high light levels…”

Section: Florasmentioning

confidence: 99%

“…Most spectacularly, South American notoungulates and other herbivorous lineages show a pattern of increasing cheek tooth crown height starting the middle Eocene (~38 Ma), classically hypothesized to reflect an evolutionary response to linked climate and vegetation change during the Eocene-Miocene (e.g., Stebbins, 1981;Jacobs et al, 1999;Madden et al, 2010;Strömberg, 2011). Many studies have attempted to test this hypothesis by reconstructing vegetation structure and composition through paleobotanical evidence or indirect proxies (e.g., Croft, 2001;Palazzesi and Barreda, 2012;Strömberg et al, 2013;Dunn et al, 2015). However, most do not explicitly link vegetation and faunal data to regional and global climate reconstructions to investigate the interplay among global climate change, ocean circulation and local climates and ecologies.…”

Section: Introductionmentioning

confidence: 99%

Quasi-static Eocene–Oligocene climate in Patagonia promotes slow faunal evolution and mid-Cenozoic global cooling

Kohn

Strömberg

Madden

et al. 2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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New local/regional climatic data were compared with floral and faunal records from central Patagonia to investigate how faunas evolve in the context of local and global climate. Oxygen isotope compositions of mammal fossils between c. 43 and 21 Ma suggest a nearly constant mean annual temperature of 16±3 °C, consistent with leaf physiognomic and sea surface studies that imply temperatures of 16-18 °C. Carbon isotopes in tooth enamel track atmospheric  13 C, but with a positive deviation at 27.2 Ma, and a strong negative deviation at 21 Ma. Combined with paleosol characteristics and reconstructed Leaf Area Indices (rLAI), these trends suggest aridification from 45 Ma (c. 1200 mm/yr) to 43 Ma (c. 450 mm/yr), with quasi-constant MAP until at least 31 Ma, and increases to ~800 mm/yr by 21 Ma. Comparable MAP through most of the sequence is consistent with relatively constant floral compositions, rLAI, and leaf physiognomy. Abundance of palms reflects relatively dry-adapted lineages and greater drought tolerance under higher p CO2 . Pedogenic carbonate isotopes imply low p CO2 = 430±300 ppmv at the initiation of the Eocene-Oligocene climatic transition. Arid conditions in Patagonia during the late Eocene through Oligocene provided dust to the Southern Ocean, enhancing productivity of silicifiers, drawdown of atmospheric CO 2 , and protracted global cooling. As the Antarctic Circumpolar Current formed and Earth cooled, wind speeds increased across Patagonia, providing more dust in a positive climate feedback. High tooth crowns (hypsodonty) and evergrowing teeth (hypselodonty) in notoungulates evolved slowly and progressively over 20 Ma after initiation of relatively dry environments through natural selection in response to dust ingestion. A Ratchet evolutionary model may explain protracted evolution of hypsodonty, in which small variations in climate or dust delivery in an otherwise static environment drive small morphological shifts that accumulate slowly over geologic time.

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Fossil pollen records reveal a late rise of open-habitat ecosystems in Patagonia

Cited by 82 publications

References 36 publications

Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift

Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift

Ontogenetic and life history trait changes associated with convergent ecological specializations in extinct ungulate mammals

Quasi-static Eocene–Oligocene climate in Patagonia promotes slow faunal evolution and mid-Cenozoic global cooling

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