Seasonal changes in the formation time of pedogenic carbonates on the Chinese Loess Plateau during Quaternary glacial cycles

“…Specifically, the declines of both Sr/Ca and Mg/Ca indicate lower PCP as a result of higher monsoonal rainfall. The negative shift of δ 18 O c is likely caused by lower rainfall‐δ 18 O during the growing season as the summer monsoon intensified (Da et al., 2023), while the decrease of δ 13 C c can be attributed to enhanced soil respiration and/or decreased δ 13 C of C 3 plants as a result of higher moisture availability (H. Zhou et al., 2018).…”

“…Notably, the distributions of the modeled slopes range between 0.69 and 1.02, which are higher than the slope of our Red Clay samples. This is reasonable because calcite nodules consist of pedogenic carbonates precipitating from soil solutions with different initial trace metal/Ca ratios and degrees of PCP over decades to millennia (Da et al., 2023; Zamanian et al., 2016). In this case, the actual regression slope of calcite nodules should be composed of data points from all the modeled lines rather than one, leading to potentially shallower slopes.…”

“…In this case, temperature variation is insufficient to explain the ∼2‰ increase of δ 18 O c between 4.5 and 3.3 Ma. Therefore, we suggest the long-term δ 18 O c shifts are mainly due to changes in the δ 18 O of soil water, dominated by the δ 18 O of seasonal rainfall (Da et al, 2023). The incorporation of trace metals into carbonates is determined by the partition coefficient and the compositions of the parent solution:…”

“…Consequently, pedogenic carbonate captures seasonal rather than mean annual climate (Kelson et al., 2020). A recent study combining isotope analyses and modeling found that the timing of pedogenic carbonate growth on the CLP mainly depends on rainfall and its formation depth through their controls on the calcite saturation state in soil water (Da et al., 2023). Specifically, rainwater dissolves soil carbonate as it passes through the soil column, gradually becoming calcite‐supersaturated and precipitating pedogenic carbonate at depth.…”

“…Specifically, rainwater dissolves soil carbonate as it passes through the soil column, gradually becoming calcite‐supersaturated and precipitating pedogenic carbonate at depth. Because (a) the monsoonal rainfall mainly occurs during the summer and (b) soil water is already calcite‐supersaturated when reaching the formation depth of nodules (Da et al., 2023), calcite nodules should mostly grow and record climate signals during the summer.…”

A Humid East Asia During the Early Pliocene Indicated by Calcite Nodules From the Chinese Loess Plateau

“…Specifically, the declines of both Sr/Ca and Mg/Ca indicate lower PCP as a result of higher monsoonal rainfall. The negative shift of δ 18 O c is likely caused by lower rainfall‐δ 18 O during the growing season as the summer monsoon intensified (Da et al., 2023), while the decrease of δ 13 C c can be attributed to enhanced soil respiration and/or decreased δ 13 C of C 3 plants as a result of higher moisture availability (H. Zhou et al., 2018).…”

“…Notably, the distributions of the modeled slopes range between 0.69 and 1.02, which are higher than the slope of our Red Clay samples. This is reasonable because calcite nodules consist of pedogenic carbonates precipitating from soil solutions with different initial trace metal/Ca ratios and degrees of PCP over decades to millennia (Da et al., 2023; Zamanian et al., 2016). In this case, the actual regression slope of calcite nodules should be composed of data points from all the modeled lines rather than one, leading to potentially shallower slopes.…”

“…In this case, temperature variation is insufficient to explain the ∼2‰ increase of δ 18 O c between 4.5 and 3.3 Ma. Therefore, we suggest the long-term δ 18 O c shifts are mainly due to changes in the δ 18 O of soil water, dominated by the δ 18 O of seasonal rainfall (Da et al, 2023). The incorporation of trace metals into carbonates is determined by the partition coefficient and the compositions of the parent solution:…”

“…Consequently, pedogenic carbonate captures seasonal rather than mean annual climate (Kelson et al., 2020). A recent study combining isotope analyses and modeling found that the timing of pedogenic carbonate growth on the CLP mainly depends on rainfall and its formation depth through their controls on the calcite saturation state in soil water (Da et al., 2023). Specifically, rainwater dissolves soil carbonate as it passes through the soil column, gradually becoming calcite‐supersaturated and precipitating pedogenic carbonate at depth.…”

“…Specifically, rainwater dissolves soil carbonate as it passes through the soil column, gradually becoming calcite‐supersaturated and precipitating pedogenic carbonate at depth. Because (a) the monsoonal rainfall mainly occurs during the summer and (b) soil water is already calcite‐supersaturated when reaching the formation depth of nodules (Da et al., 2023), calcite nodules should mostly grow and record climate signals during the summer.…”

A Humid East Asia During the Early Pliocene Indicated by Calcite Nodules From the Chinese Loess Plateau

Absolute 230Th/U chronologies and Δ47 thermometry paleoclimate reconstruction from soil carbonates in Central Asian loess over the past 1 million years

Paleoclimatic and paleoenvironmental significance of late Pleistocene pedogenic carbonates (‘Caliche Cordão’) from the coastal Pampa of southern Brazil