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Paleovegetation dynamics in an alternative stable states landscape in the montane Western Ghats, India

Ramya Bala, Prabhakaran ; Pullyottum Kavil, Sarath ; Tayasu, Ichiro ; [et al.]

SAGE Publications ; 2022

In: The Holocene Vol. 32, No. 4 ( 2022-04), p. 297-307

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In: The Holocene, SAGE Publications, Vol. 32, No. 4 ( 2022-04), p. 297-307

Abstract: Peat deposits ( 〉 50 ka) in the montane Nilgiris (Western Ghats, India), have been central to the reconstruction of late Quaternary paleoclimate using paleovegetation changes in the forest-grassland vegetation mosaic that coexist here. However, it is well-known that short-term disturbances can also cause vegetation switches when multiple stable vegetation states exist. We studied paleovegetation changes within the alternative stable states framework using stable carbon isotopes (relative abundance of C3-C4 vegetation) on the cellulose fraction from two high-resolution radiocarbon-dated peat cores ~170 m apart in the Sandynallah valley: Core 1 closer to the hillslope (32,000 years old) and Core 2 from the centre of the valley (45,000 years old). Core 1 is located in an ecotone showing shola-sedgeland dynamics with vegetation switching at c.22 ka from shola (possibly due to fire) to a prolonged unstable state until 13 ka sustained by low waterlogging. Following a hiatus c.13 ka, sedgeland dominates, with a shift into shola at 3.75 ka driven by increasing aridity. Core 2 shows a stable sedgeland mixed C3-C4 composition responding to temperature, enriched in C3-vegetation in the last glacial with C4-dominance beginning c.18.5 ka, indicative of deglacial warming. The distinctive vegetation states at corresponding times in Cores 1 and 2 within the same valley, responding independently to disturbances and climate, respectively, is the first paleo-record from an alternative stable states landscape in the montane tropics. Thus, short-term disturbances and site attributes need to be accounted for before ascribing vegetation change to changing climate in such vegetation mosaics.

Type of Medium: Online Resource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/09596836211066592

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2022

detail.hit.zdb_id: 2027956-5

SSG: 14

SSG: 3,4

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Oyster reef die-offs in stratigraphic record of Corpus Christi Bay, Texas, possibly caused by drought-driven extreme salinity changes

Goff, John A ; Lugrin, Lindsey ; Gulick, Sean PS ; [et al.]

SAGE Publications ; 2016

In: The Holocene Vol. 26, No. 4 ( 2016-04), p. 511-519

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In: The Holocene, SAGE Publications, Vol. 26, No. 4 ( 2016-04), p. 511-519

Abstract: An ultra-high resolution acoustic reflection survey within Corpus Christi Bay, Texas, reveals numerous oyster reefs that have died off and been buried by subsequent sedimentation. The die-offs occurred in four temporal clusters, as evidenced by nearly coterminous capping horizons across multiple reef heads. These horizons can be correlated to published, calibrated radiocarbon dates (2-σ uncertainty: ± ~900 years) derived from cored sediments, and placed into the stratigraphic context. The reefs began growing with the initial flooding of the bay at ~9600 ybp. The first die-offs are coincident with the transition from upper bay to open bay environment at ~8140 ybp, with the greatest concentration of die-offs seaward. Subsequent die-offs occurred ~7600, 6870, and 5800 ybp, with a seaward-to-landward progression. These ages appear to either post-date or be concurrent with published periods of accelerated sea level rise of ~1–4 m. However, because bay oysters ( Crassostrea virginica) are robust with respect to salinity and depth changes, we cannot directly link die-offs with punctuated sea level rise. We hypothesize instead that reef die-offs are associated with extreme salinity changes caused by droughts, based on observations during the 1950s Texas drought. During that event, bay reefs were colonized by open-ocean species ( Crassostrea equestris), which gradually replaced bay oysters progressing seaward to landward in concentration. Subsequent flooding and rapid freshening of the bay caused massive mortality of the colonizing species. These floods also brought abundant fine-grained sedimentation that could bury reefs before they could be recolonized. Such a sequence of events could explain widespread early Holocene, seaward-to-landward oyster reef die-offs during times of more frequent and severe drought conditions. A plausible climatological link exists between periods of low rainfall in Texas and periods of accelerated melting of the polar ice cap, which could explain the evident correlation between reef die-off and sea level rise.

Type of Medium: Online Resource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/0959683615612587

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2016

detail.hit.zdb_id: 2027956-5

SSG: 14

SSG: 3,4

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