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Bioclimatic transect networks: Powerful observatories of ecological change

Caddy‐Retalic, Stefan ; Andersen, Alan N. ; Aspinwall, Michael J. ; [et al.]

Wiley ; 2017

In: Ecology and Evolution Vol. 7, No. 13 ( 2017-07), p. 4607-4619

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In: Ecology and Evolution, Wiley, Vol. 7, No. 13 ( 2017-07), p. 4607-4619

Abstract: Transects that traverse substantial climate gradients are important tools for climate change research and allow questions on the extent to which phenotypic variation associates with climate, the link between climate and species distributions, and variation in sensitivity to climate change among biomes to be addressed. However, the potential limitations of individual transect studies have recently been highlighted. Here, we argue that replicating and networking transects, along with the introduction of experimental treatments, addresses these concerns. Transect networks provide cost‐effective and robust insights into ecological and evolutionary adaptation and improve forecasting of ecosystem change. We draw on the experience and research facilitated by the Australian Transect Network to demonstrate our case, with examples, to clarify how population‐ and community‐level studies can be integrated with observations from multiple transects, manipulative experiments, genomics, and ecological modeling to gain novel insights into how species and systems respond to climate change. This integration can provide a spatiotemporal understanding of past and future climate‐induced changes, which will inform effective management actions for promoting biodiversity resilience.

Type of Medium: Online Resource

ISSN: 2045-7758 , 2045-7758

URL: Issue

URL: Article

DOI: 10.1002/ece3.2017.7.issue-13

DOI: 10.1002/ece3.2995

Language: English

Publisher: Wiley

Publication Date: 2017

detail.hit.zdb_id: 2635675-2

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Stable isotopes in leaf water of terrestrial plants

Cernusak, Lucas A. ; Barbour, Margaret M. ; Arndt, Stefan K. ; [et al.]

Wiley ; 2016

In: Plant, Cell & Environment Vol. 39, No. 5 ( 2016-05), p. 1087-1102

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In: Plant, Cell & Environment, Wiley, Vol. 39, No. 5 ( 2016-05), p. 1087-1102

Abstract: Leaf water contains naturally occurring stable isotopes of oxygen and hydrogen in abundances that vary spatially and temporally. When sufficiently understood, these can be harnessed for a wide range of applications. Here, we review the current state of knowledge of evaporative enrichment of heavy isotopes in leaf water, and its relevance for isotopic signals incorporated into plant organic matter and atmospheric gases.

Type of Medium: Online Resource

ISSN: 0140-7791 , 1365-3040

URL: Issue

URL: Article

DOI: 10.1111/pce.v39.5

DOI: 10.1111/pce.12703

RVK:

WA 15000

Language: English

Publisher: Wiley

Publication Date: 2016

detail.hit.zdb_id: 391893-2

detail.hit.zdb_id: 2020843-1

SSG: 12

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Chemostratigraphic implications of spatial variation in the Paleocene-Eocene Thermal Maximum carbon isotope excursion, SE Bighorn Basin, Wyoming : Bighorn Basin, Wyoming Petm Chemostratigraphy

Baczynski, Allison A. ; McInerney, Francesca A. ; Wing, Scott L. ; [et al.]

American Geophysical Union (AGU) ; 2013

In: Geochemistry, Geophysics, Geosystems Vol. 14, No. 10 ( 2013-10), p. 4133-4152

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In: Geochemistry, Geophysics, Geosystems, American Geophysical Union (AGU), Vol. 14, No. 10 ( 2013-10), p. 4133-4152

Type of Medium: Online Resource

ISSN: 1525-2027

URL: Article

DOI: 10.1002/ggge.20265

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 2013

detail.hit.zdb_id: 2027201-7

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Decreased soil carbon in a warming world: Degraded pyrogenic carbon during the Paleocene-Eocene Thermal Maximum, Bighorn Basin, Wyoming

Denis, Elizabeth H. ; Maibauer, Bianca J. ; Bowen, Gabriel J. ; [et al.]

Elsevier BV ; 2021

In: Earth and Planetary Science Letters Vol. 566 ( 2021-07), p. 116970-

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In: Earth and Planetary Science Letters, Elsevier BV, Vol. 566 ( 2021-07), p. 116970-

Type of Medium: Online Resource

ISSN: 0012-821X

URL: Article

DOI: 10.1016/j.epsl.2021.116970

RVK:

TE 1000

Language: English

Publisher: Elsevier BV

Publication Date: 2021

detail.hit.zdb_id: 300203-2

detail.hit.zdb_id: 1466659-5

SSG: 16,13

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Isotopic and morphologic proxies for reconstructing light environment and leaf function of fossil leaves: a modern calibration in the Daintree Rainforest, Australia

Cheesman, Alexander W. ; Duff, Heather ; Hill, Kathryn ; [et al.]

Wiley ; 2020

In: American Journal of Botany Vol. 107, No. 8 ( 2020-08), p. 1165-1176

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In: American Journal of Botany, Wiley, Vol. 107, No. 8 ( 2020-08), p. 1165-1176

Abstract: Within closed‐canopy forests, vertical gradients of light and atmospheric CO 2 drive variations in leaf carbon isotope ratios, leaf mass per area (LMA), and the micromorphology of leaf epidermal cells. Variations in traits observed in preserved or fossilized leaves could enable inferences of past forest canopy closure and leaf function and thereby habitat of individual taxa. However, as yet no calibration study has examined how isotopic, micro‐ and macromorphological traits, in combination, reflect position within a modern closed‐canopy forest or how these could be applied to the fossil record. Methods Leaves were sampled from throughout the vertical profile of the tropical forest canopy using the 48.5 m crane at the Daintree Rainforest Observatory, Queensland, Australia. Carbon isotope ratios, LMA, petiole metric (i.e., petiole‐width 2 /leaf area, a proposed proxy for LMA that can be measured from fossil leaves), and leaf micromorphology (i.e., undulation index and cell area) were compared within species across a range of canopy positions, as quantified by leaf area index (LAI). Results Individually, cell area, δ 13 C, and petiole metric all correlated with both LAI and LMA, but the use of a combined model provided significantly greater predictive power. Conclusions Using the observed relationships with leaf carbon isotope ratio and morphology to estimate the range of LAI in fossil floras can provide a measure of canopy closure in ancient forests. Similarly, estimates of LAI and LMA for individual taxa can provide comparative measures of light environment and growth strategy of fossil taxa from within a flora.

Type of Medium: Online Resource

ISSN: 0002-9122 , 1537-2197

URL: Issue

URL: Article

DOI: 10.1002/ajb2.v107.8

DOI: 10.1002/ajb2.1523

RVK:

WA 15000

Language: English

Publisher: Wiley

Publication Date: 2020

detail.hit.zdb_id: 2053581-8

SSG: 12

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Constraining paleohydrologic change during the Paleocene-Eocene Thermal Maximum in the continental interior of North America

Baczynski, Allison A. ; McInerney, Francesca A. ; Wing, Scott L. ; [et al.]

Elsevier BV ; 2017

In: Palaeogeography, Palaeoclimatology, Palaeoecology Vol. 465 ( 2017-01), p. 237-246

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In: Palaeogeography, Palaeoclimatology, Palaeoecology, Elsevier BV, Vol. 465 ( 2017-01), p. 237-246

Type of Medium: Online Resource

ISSN: 0031-0182

URL: Article

DOI: 10.1016/j.palaeo.2016.10.030

RVK:

TE 1000

Language: English

Publisher: Elsevier BV

Publication Date: 2017

detail.hit.zdb_id: 1497393-5

detail.hit.zdb_id: 417718-6

SSG: 12

SSG: 13

SSG: 14

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Leaf water δ 18 O , δ 2 H and d ‐excess isoscapes for Australia using region‐specific plant parameters and non‐equilibrium vapour

McInerney, Francesca A. ; Gerber, Christoph ; Dangerfield, Emma ; [et al.]

Wiley ; 2023

In: Hydrological Processes Vol. 37, No. 5 ( 2023-05)

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In: Hydrological Processes, Wiley, Vol. 37, No. 5 ( 2023-05)

Abstract: Oxygen (δ 18 O) and hydrogen (δ 2 H) isotope ratios, and their relationship to one another ( d ‐excess) are altered as water travels from the atmosphere to the land surface, into soils and plants and back to the atmosphere. Plants return water to the atmosphere through transpiration (evaporation through the stomata), which causes isotopic fractionation concentrating the heavier isotopes ( 18 O and 2 H) in the water that remains behind in the leaves. The degree of isotopic fractionation during transpiration is controlled largely by climate, and as a result can be predicted using process‐based models and climate data. The modelled transpirational isotopic fractionation can be applied to plant source water isotopic values to predict leaf water isotope ratios and generate maps of isotopic composition, or isoscapes. This approach of mechanistic modelling has been well demonstrated in the first generation of global leaf water isoscapes ( PLoS One , 3 (6), e2447, 2008). However, use of leaf water isoscapes in fields such as hydrology, ecology, and forensics requires a new generation of updated region‐specific isoscapes. Here, we generate leaf water isoscapes of δ 18 O, δ 2 H and d ‐excess for Australia, the driest vegetated continent on Earth, where leaf water represents a critical water resource for ecosystems. These isoscapes represent an improvement over previous global isoscapes due to their higher resolution, region‐specific, empirically derived plant parameters, and non‐equilibrium corrections for water vapour isotopic composition. The new isoscapes for leaf water are evaluated relative to observed isotope ratios of leaf cellulose and cherry juice. The model predictions for annual average leaf water isotope ratios showed strong correlations with these plant tissues that integrate over time. Moreover, inclusion of region‐specific leaf temperature estimates and non‐equilibirum vapour corrections improved prediction accuracy. Regionally based isoscapes provide improved characterisations of average leaf water isotope ratios needed to support research in hydrology, plant ecophysiology, atmospheric science, ecology, and geographic provenancing of biological materials.

Type of Medium: Online Resource

ISSN: 0885-6087 , 1099-1085

URL: Issue

URL: Article

DOI: 10.1002/hyp.v37.5

DOI: 10.1002/hyp.14878

Language: English

Publisher: Wiley

Publication Date: 2023

detail.hit.zdb_id: 1479953-4

SSG: 14

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Effects of the Paleocene-Eocene Thermal Maximum on Terrestrial Plants and Carbon Storage

Baczynski, Allie A. ; Barclay, Richard S. ; Bowen, Gabriel J. ; [et al.]

Cambridge University Press (CUP) ; 2014

In: The Paleontological Society Special Publications Vol. 13 ( 2014), p. 131-132

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In: The Paleontological Society Special Publications, Cambridge University Press (CUP), Vol. 13 ( 2014), p. 131-132

Type of Medium: Online Resource

ISSN: 2475-2622 , 2475-2681

URL: Article

DOI: 10.1017/S2475262200012806

Language: English

Publisher: Cambridge University Press (CUP)

Publication Date: 2014

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The Neogene transition from C 3 to C 4 grasslands in North America: assemblage analysis of fossil phytoliths

Strömberg, Caroline A. E. ; McInerney, Francesca A.

Cambridge University Press (CUP) ; 2011

In: Paleobiology Vol. 37, No. 1 ( 2011), p. 50-71

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In: Paleobiology, Cambridge University Press (CUP), Vol. 37, No. 1 ( 2011), p. 50-71

Abstract: The rapid ecological expansion of grasses with C 4 photosynthesis at the end of the Neogene (8–2 Ma) is well documented in the fossil record of stable carbon isotopes. As one of the most profound vegetation changes to occur in recent geologic time, it paved the way for modern tropical grassland ecosystems. Changes in CO 2 levels, seasonality, aridity, herbivory, and fire regime have all been suggested as potential triggers for this broadly synchronous change, long after the evolutionary origin of the C 4 pathway in grasses. To date, these hypotheses have suffered from a lack of direct evidence for floral composition and structure during this important transition. This study aimed to remedy the problem by providing the first direct, relatively continuous record of vegetation change for the Great Plains of North America for the critical interval (ca. 12–2 Ma) using plant silica (phytolith) assemblages. Phytoliths were extracted from late Miocene-Pliocene paleosols in Nebraska and Kansas. Quantitative phytolith analysis of the 14 best-preserved assemblages indicates that habitats varied substantially in openness during the middle to late Miocene but became more uniformly open, corresponding to relatively open grassland or savanna, during the late Miocene and early Pliocene. Phytolith data also point to a marked increase of grass short cells typical of chloridoid and other potentially C 4 grasses of the PACMAD clade between 8 and 5 Ma; these data suggest that the proportion of these grasses reached up to ∼50–60% of grasses, resulting in mixed C 3 -C 4 and highly heterogeneous grassland communities by 5.5 Ma. This scenario is consistent with interpretations of isotopic records from paleosol carbonates and ungulate tooth enamel. The rise in abundance of chloridoids, which were present in the central Great Plains since the early Miocene, demonstrates that the “globally” observed lag between C 4 grass evolution/taxonomic diversification and ecological expansion occurred at the regional scale. These patterns of vegetation alteration imply that environmental change during the late Miocene-Pliocene played a major role in the C 3 -C 4 shift in the Great Plains. Specifically, the importance of chloridoids as well as a decline in the relative abundance of forest indicator taxa, including palms, point to climatic drying as a key trigger for C 4 dominance.

Type of Medium: Online Resource

ISSN: 0094-8373 , 1938-5331

URL: Article

DOI: 10.1666/09067.1

DOI: 10.1666/09067.s1

Language: English

Publisher: Cambridge University Press (CUP)

Publication Date: 2011

detail.hit.zdb_id: 2052186-8

SSG: 12

SSG: 13

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The Neogene transition from C 3 to C 4 grasslands in North America: stable carbon isotope ratios of fossil phytoliths

McInerney, Francesca A. ; Strömberg, Caroline A. E. ; White, James W. C.

Cambridge University Press (CUP) ; 2011

In: Paleobiology Vol. 37, No. 1 ( 2011), p. 23-49

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In: Paleobiology, Cambridge University Press (CUP), Vol. 37, No. 1 ( 2011), p. 23-49

Abstract: C 4 grasses form the foundation of warm-climate grasslands and savannas and provide important food crops such as corn, but their Neogene rise to dominance is still not fully understood. Carbon isotope ratios of tooth enamel, soil carbonate, carbonate cements, and plant lipids indicate a late Miocene-Pliocene (8–2 Ma) transition from C 3 vegetation to dominantly C 4 grasses at many sites around the world. However, these isotopic proxies cannot identify whether the C 4 grasses replaced woody vegetation (trees and shrubs) or C 3 grasses. Here we propose a method for reconstructing the carbon isotope ratio of Neogene grasses using the carbon isotope ratio of organic matter trapped in plant silica bodies (phytoliths). Although a wide range of plants produce phytoliths, we hypothesize that in grass-dominated ecosystems the majority of phytoliths will be derived from grasses, and will yield a grass carbon isotope signature. Phytolith extracts can be contaminated by non-phytolith silica (e.g., volcanic ash). To test the feasibility of the method given these potential problems, we examined sample purity (phytolith versus non-phytolith silica), abundance of grass versus non-grass phytoliths, and carbon isotope ratios of phytolith extracts from late Miocene-Pliocene paleosols of the central Great Plains. Isotope results from the purest samples are compared with phytolith assemblage analysis of these same extracts. The dual record spans the interval of focus (ca. 12–2 Ma), allowing us, for the first time, to investigate how isotopic shifts correlate with floral change. We found that many samples contained high abundances of non-biogenic silica; therefore, only a small subset of “pure” samples ( 〉 50% of phytoliths by volume) with good preservation were considered to provide reliable carbon isotope ratios. All phytolith assemblages contained high proportions (on average 85%) of grass phytoliths, supporting our hypothesis for grass-dominated communities. Therefore, the carbon isotope ratio of pure, well-preserved samples that are dominated by grass biosilica is considered a reliable measure of the proportion of C 3 and C 4 grasses in the Neogene. The carbon isotope ratios of the pure fossil phytolith samples indicate a transition from predominantly C 3 grasses to mixed C 3 -C 4 grasses by 5.5 Ma and then a shift to more than 80% C 4 grasses by 3–2 Ma. With the exception of the Pliocene sample, these isotopic data are broadly concordant with phytolith assemblages that show a general increase in C 4 grasses in the late Miocene. However, phytolith assemblage analysis indicates lower relative abundance of C 4 grasses in overall vegetation than do the carbon isotopes from the same phytolith assemblages. The discrepancy may relate to either (1) incomplete identification of (C 4 ) PACMAD phytoliths, (2) higher production of non-diagnostic phytoliths in C 4 grasses compared to C 3 grasses, or (3) biases in the isotope record toward grasses rather than overall vegetation. The impact of potential incomplete characterization of (C 4 ) PACMAD phytoliths on assemblage estimates of proportion of C 4 , though important, cannot reconcile discrepancies between the methods. We explore hypothesis (2) by analyzing a previously published data set of silica content in grasses and a small data set of modern grass leaf assemblage composition using analysis of variance, independent contrasts, and sign tests. These tests suggest that C 4 grasses do not have more silica than C 3 grasses; there is also no difference with regard to production of non-diagnostic phytoliths. Thus, it is most likely that the discrepancy between phytolith assemblages and isotope ratios is a consequence of hypothesis (3), that the isotope signature is influenced by the contribution of non-diagnostic grass phytoliths, whereas the assemblage composition is not. Assemblage-based estimates of % C 4 within grasses, rather than overall vegetation, are in considerably better agreement with the isotope-based estimates. These results support the idea that, in grass-dominated assemblages, the phytolith carbon isotope method predominantly records shifts in dominant photosynthetic pathways among grasses, whereas phytolith assemblage analysis detects changes in overall vegetation. Carbon isotope ratios of fossil phytoliths in conjunction with phytolith assemblage analysis suggest that the late Neogene expansion of C 4 grasses was largely at the expense of C 3 grasses rather than C 3 shrubs/trees. Stable isotopic analysis of phytoliths can therefore provide unique information about grass community changes during the Neogene, as well as help test how grass phytolith morphology relates to photosynthetic pathway.

Type of Medium: Online Resource

ISSN: 0094-8373 , 1938-5331

URL: Article

DOI: 10.1666/09068.1

DOI: 10.1666/09068.s1

Language: English

Publisher: Cambridge University Press (CUP)

Publication Date: 2011

detail.hit.zdb_id: 2052186-8

SSG: 12

SSG: 13

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