The late-Holocene records of sediment provenance/weathering in the Wular Lake catchment, Northwest Himalaya

<p>The Wular Lake (area ~189 km<sup>2</sup>) in the Kashmir Valley (area ~16,000 km<sup>2</sup>) is fed by the Jhelum River, which is a large Himalayan tributary of the Indus River. The lake catchment seasonally receives precipitation from tropical (Indian Summer Monsoon, ISM) and subtropical (Western Disturbances, WD) moisture sources. Thus, the lake sediments provide a unique opportunity to explore the high-resolution archive of the synoptic-scale weathering intensity and pattern in the Northwest Himalaya under past hydroclimatic conditions. In this study, radiogenic Sr and Nd isotope compositions and lithic fractions (sand, silt, and clay) have been determined on detrital phases of a 2.2 m long sediment core retrieved from the Wular Lake. The <sup>14</sup>C-AMS chronology of this core presents the sedimentary records of the last 4.2 ka. The Sr and Nd isotope data indicate that the lake sediments deposited during the late-Holocene are mostly sourced from the Tethyan Himalaya rather than other major lithologies. The marginal downcore variations of ±1.5 ε<sub>Nd</sub> unit (except two anomalous datapoints with large uncertainties at 0.8 ka and 2.0 ka) reveal no major shifts in the sediment provenance during the late-Holocene. On the other hand, the significant downcore variations are observed in <sup>87</sup>Sr/<sup>86</sup>Sr (>0.001–0.004) showing well-resolved periods of higher and lower values than the late-Holocene average. The <sup>87</sup>Sr/<sup>86</sup>Sr data unbiased by the grain-size sorting and carbonate contents seem to indicate a temporal dominance of chemical and physical modes of silicate weathering in the Northwest Himalaya before and after ~2 ka, respectively. Interestingly, an abrupt shift in the <sup>87</sup>Sr/<sup>86</sup>Sr data during the Little Ice Age (~0.4–0.1 ka) reveals a multi-decadal response of the silicate weathering intensity in synchrony with the northern hemisphere temperature anomaly.</p><p> </p>

Holocene palaeoenvironmental records from the high-altitude Wular Lake, Western Himalayas

We present a comprehensive record of Holocene (11,590–628 cal. yr BP) climate and hydrographic changes around the Wular Lake located in Kashmir Valley, India. Based on the multi-proxy investigations, we have identified three phases of wet climate conditions that prevailed from the commencement of the Holocene Epoch – 9000 cal. yr BP, 8100–6650 cal. yr BP and 6350–5000 cal. yr BP, whereas periods of dry climate were observed during 9000–8100 cal. yr BP, 6650–6350 cal. yr BP and ~5000 to 4000 cal. yr BP. The results also suggested that the lake widened and deepened significantly around 6350–5000 cal. yr BP. The results indicated desiccation and the exposure of the lake margin around 5000–4500 cal. yr BP. The sedimentation rate since 4500–628 cal. yr BP was quite low for detailed paleoclimate interpretations. Oscillations in lake extension and deepening appear to be due to changing intensity of westerly moisture in the region, and we correlate several of the low lake-level phases to the Bond events caused by North Atlantic ice rafting events.