SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308797436> ?p ?o ?g. }

Showing items 1 to 100 of ±202 with 100 items per page.

W4308797436 endingPage "60" @default.
W4308797436 startingPage "46" @default.
W4308797436 abstract "Holocene environmental and climate change on the Tibetan Plateau is intensively studied and discussed with the aim to better understand the factors controlling the hydrology of individual river catchments and especially the availability of water which is of utmost significance for the communities downstream in times of rapid climate change. Thus, a late glacial and Holocene sediment record from Lake Heihai in the Kunlun-Pass region was investigated using ostracod and geochemical analyses. Cold and dry conditions were inferred between ca. 12.9 and 12.3 cal ka BP and higher temperatures before and afterwards. The cold spell probably corresponds to the Younger Dryas (YD) event in the North Atlantic region. Warmer and wetter conditions with highest lake levels and decreased lake-water salinity were recorded from ca. 10.8 to 7.0 cal ka BP when the summer monsoon was strengthened. The cold 8.2 cal ka BP event is not significantly recorded in the region probably due to the predominance of the summer monsoon over the westerlies. A declined lake level and increased lake-water salinity as the result of cold and dry conditions are inferred from ca. 7.0 to 4.5 cal ka BP when the strengthening of the mid-latitude westerly circulation probably triggered glacier advances in the catchment. An even lower lake level existed during cold conditions with glacier advances from ca. 4.5 to 1.2 cal ka BP. The level of Lake Heihai rose again after ca. 1.2 cal ka BP due to warmer conditions, causing the retreat of glaciers and higher runoff. Our record from the Kunlun Pass region provides further evidence for the catchment-specific response of hydrographical systems which are partly controlled by glaciers as major water sources." @default.
W4308797436 created "2022-11-15" @default.
W4308797436 creator A5003273384 @default.
W4308797436 creator A5008659088 @default.
W4308797436 creator A5009183920 @default.
W4308797436 creator A5060121586 @default.
W4308797436 creator A5076634061 @default.
W4308797436 creator A5084687224 @default.
W4308797436 creator A5087279801 @default.
W4308797436 date "2023-01-01" @default.
W4308797436 modified "2023-10-01" @default.
W4308797436 title "Late glacial and Holocene climate in the Kunlun Pass region (northern Tibetan Plateau) inferred from a multi-proxy lake record" @default.
W4308797436 cites W110680808 @default.
W4308797436 cites W1489113005 @default.
W4308797436 cites W1493207643 @default.
W4308797436 cites W1573094730 @default.
W4308797436 cites W1961177087 @default.
W4308797436 cites W1965702197 @default.
W4308797436 cites W1967968324 @default.
W4308797436 cites W1968552973 @default.
W4308797436 cites W1968832695 @default.
W4308797436 cites W1970861892 @default.
W4308797436 cites W1977799780 @default.
W4308797436 cites W1981477554 @default.
W4308797436 cites W1984059461 @default.
W4308797436 cites W1986442196 @default.
W4308797436 cites W1987211224 @default.
W4308797436 cites W1987908647 @default.
W4308797436 cites W1988331452 @default.
W4308797436 cites W1990370315 @default.
W4308797436 cites W1991233930 @default.
W4308797436 cites W1995877077 @default.
W4308797436 cites W1996336083 @default.
W4308797436 cites W1998361986 @default.
W4308797436 cites W2004208783 @default.
W4308797436 cites W2004284299 @default.
W4308797436 cites W2005374538 @default.
W4308797436 cites W2016158933 @default.
W4308797436 cites W2016838254 @default.
W4308797436 cites W2020150676 @default.
W4308797436 cites W2027264920 @default.
W4308797436 cites W2028081603 @default.
W4308797436 cites W2028383629 @default.
W4308797436 cites W2028772710 @default.
W4308797436 cites W2030509857 @default.
W4308797436 cites W2036258677 @default.
W4308797436 cites W2038128466 @default.
W4308797436 cites W2040206795 @default.
W4308797436 cites W2042501609 @default.
W4308797436 cites W2043200562 @default.
W4308797436 cites W2043759981 @default.
W4308797436 cites W2044954934 @default.
W4308797436 cites W2045026668 @default.
W4308797436 cites W2045099531 @default.
W4308797436 cites W2047778794 @default.
W4308797436 cites W2048989325 @default.
W4308797436 cites W2050637326 @default.
W4308797436 cites W2051731302 @default.
W4308797436 cites W2051757547 @default.
W4308797436 cites W2051773982 @default.
W4308797436 cites W2054777801 @default.
W4308797436 cites W2056354261 @default.
W4308797436 cites W2063685813 @default.
W4308797436 cites W2066211438 @default.
W4308797436 cites W2066643819 @default.
W4308797436 cites W2067146615 @default.
W4308797436 cites W2071148052 @default.
W4308797436 cites W2071184501 @default.
W4308797436 cites W2073633237 @default.
W4308797436 cites W2074476121 @default.
W4308797436 cites W2076338628 @default.
W4308797436 cites W2079775690 @default.
W4308797436 cites W2079830783 @default.
W4308797436 cites W2085301764 @default.
W4308797436 cites W2086428128 @default.
W4308797436 cites W2087301114 @default.
W4308797436 cites W2088110154 @default.
W4308797436 cites W2091926733 @default.
W4308797436 cites W2093388432 @default.
W4308797436 cites W2093608862 @default.
W4308797436 cites W2094030382 @default.
W4308797436 cites W2094558696 @default.
W4308797436 cites W2095399378 @default.
W4308797436 cites W2096484028 @default.
W4308797436 cites W2102989255 @default.
W4308797436 cites W2107211406 @default.
W4308797436 cites W2110098148 @default.
W4308797436 cites W2118014315 @default.
W4308797436 cites W2118168128 @default.
W4308797436 cites W2126543959 @default.
W4308797436 cites W2130266255 @default.
W4308797436 cites W2136338903 @default.
W4308797436 cites W2150152215 @default.
W4308797436 cites W2151563885 @default.
W4308797436 cites W2156851025 @default.
W4308797436 cites W2159506618 @default.
W4308797436 cites W2161001089 @default.
W4308797436 cites W2168566790 @default.