Parminder Singh Ranhotra scite author profile

To date, there is a gap in the data about the state and mass balance of glaciers in the climate-sensitive subtropical regions during the Little Ice Age (LIA). Here, based on an unprecedented tree-ring sampling coverage, we present the longest reconstructed mass balance record for the Western Himalayan glaciers, dating to 1615. Our results confirm that the later phase of LIA was substantially briefer and weaker in the Himalaya than in the Arctic and subarctic regions. Furthermore, analysis of the time-series of the mass-balance against other time-series shows clear evidence of the existence of (i) a significant glacial decay and a significantly weaker magnitude of glaciation during the latter half of the LIA; (ii) a weak regional mass balance dependence on either the El Niño-Southern Oscillation (ENSO) or the Total Solar Irradiance (TSI) taken in isolation, but a considerable combined influence of both of them during the LIA; and (iii) in addition to anthropogenic climate change, the strong effect from the increased yearly concurrence of extremely high TSI with El Niño over the past five decades, resulting in severe glacial mass loss. The generated mass balance time-series can serve as a source of reliable reconstructed data to the scientific community.

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Reconstructing atmospheric CO₂ during the Plio–Pleistocene transition by fossil Typha

Bai

Chen

Ranhotra³

et al. 2014

Global Change Biology

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The Earth has undergone a significant climate switch from greenhouse to icehouse during the Plio-Pleistocene transition (PPT) around 2.7-2.4 million years ago (Ma), marked by the intensification of the Northern Hemisphere glaciation (NHG) ~2.7 Ma. Evidence based on oceanic CO2 [(CO2)aq], supposed to be in close equilibrium with the atmospheric CO2 [(CO2)atm], suggests that the CO2 decline might drive such climate cooling. However, the rarity of direct evidence from [CO2]atm during the interval prevents determination of the atmospheric CO2 level and further assessment on the impact of its fluctuation. Here, we reconstruct the [CO2]atm level during 2.77-2.52 Ma based on a new developed proxy of stomatal index on Typha orientalis leaves from Shanxi, North China, and depict the first [CO2]atm curve over the past 5 Ma by using stomata-based [CO2]atm data. Comparisons of the terrestrial-based [CO2]atm and the existed marine-based [CO2]aq curves show a similar general trend but with different intensity of fluctuations. Our data reveal that the high peak of [CO2]atm occurred at 2.77-2.52 Ma with a lower [CO2]aq background. The subsequent sharp fall in [CO2]atm level might be responsible for the intensification of the NHG based on their general temporal synchronism. These findings shed a significant light for our understanding toward the [CO2]atm changes and its ecological impact since 5 Ma.

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Modern Vegetational Distribution and Pollen Dispersal Study within Gangotri Glacier Valley, Garhwal Himalaya

Ranhotra¹,

Bhattacharyya²

2013

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Modern pollen-vegetation relationship has been analyzed in respect to vegetational distribution and pollen dispersal from sub-alpine and alpine ecological regimes within the higher reaches of the Gangotri glacier valley. The results in general cope with the local ecological conditions of the sites within the valley. Above the tree line limits, the pollen frequency of arboreal taxa is found lower than those of non-arboreal taxa. In contrast the pine-birch forest area at Chirbasa represented the frequency of arboreal pollen (AP) more than that of non-arboreal pollen (NAP) due to over representation of Pinus wallichiana (conifer). Pollen grains of extra-local arboreal elements, mostly conifers have also been recorded here with fair amount of temperate broad-leaved arboreal taxa viz. Quercus, Alnus, Corylus, Carpinus, Ulmus, Juglans etc. that have been transported by the upthermic winds from their growing limits at lower altitudes to the study sites at higher altitudes. Non-arboreal taxa viz. marshy/aquatic, steppe and of other herbaceaous taxa, represents the existing ecological regimes of their respective sites within the valley. Differential pollen preservation has been observed between the moss cushion and sediment samples from the same site that may be due to the direct exposure of moss cushions to air, thus showing more concentration of wind pollinated pollen-spores as compared to surface sediments.

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Climatic history of Ny-Alesund region, Svalbard, over the last 19,000 yr: Insights from quartz grain microtexture and magnetic susceptibility

Kar¹,

Mazumder²,

Mishra³

et al. 2018

Polar Science

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Vegetation vis-à-vis Climate and Glacier History during 12,400 to 5,400 yr BP from Dokriani Valley, Garhwal Himalaya, India

Bhattacharyya¹,

Ranhotra²,

Gergan

2011

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Palynological analysis from a 10 m deep sediment profile from Dokriani valley, Garhwal Himalaya, provides temporal variation of vegetation vis-à-vis climate and glacier history of the region. This study reveals that between 12,406 and 10,633 cal yr BP vegetation was sparse when the climate was cool-dry and the glacier snout might had been located at lower elevations in comparison to its present position. Subsequently around 10,633 cal yr BP, an increase in the growth of diversified taxa close to the site, indicates the early Holocene climatic amelioration when glacier might have retreated at faster rate. Further, within Holocene some intermittent cool-dry episodes were recorded around 9,670 to 9,000 cal yr BP and 7,100 cal yr BP when glacier might have shown reduction in retreat rate or came to stagnation.originates from the Draupadi ka Danda (5,713 m amsl) and Janoli (6,632 m amsl) peaks. It flows in the direction of NNW to WSW with the length of about 5.5 km and width ranging from 0.08 to 2.5 km. Its present snout position is at an altitude of 3,886 m amsl (Dobhal et al. 2004) and is approachable following the 25 km of mule track from village Bhukki (1,800 m amsl). The melt water of Dokriani glacier forms the Din Gad (stream), which joins the Bhagirathi River near village Bhukki (Fig. 1A). PRESENT DAY VEGETATIONThe valley is characterized by the luxuriant vegetation covering wide range from temperate to alpine type. Its northfacing slopes are densely covered in comparison to the southfacing slopes. The broad leaved-conifer forest is mainly represented by the species of Pinus, Alnus, Corylus, Juglans, Ulmus and that dominates up to the altitude of 2,500 m amsl. Towards higher elevation, it is gradually replaced by species of Pinus, Quercus, Taxus, and Cedrus at 3,000 m amsl and at about 3,500 m amsl this forest is occupied mainly by Abies spectabilis, Quercus semecarpifolia, Betula utilis, and Rhododendron sp. Towards upper limit of this temperate forest, Abies-Betula-Rhododendron form the main constituents growing on the lateral moraines (Fig. 2). These are overtopped by Betula-Rhododendron-Juniperus scurb sub-alpine forest at 3,700 m amsl before merging into alpine

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