生物卵化石研究进展简述

卵生是动物界最普遍的繁殖方式,卵的孵化对繁殖季节突发的气候变化响应敏感,孵化成败又与生物种群数量变动和群落演替密切相关,因此卵化石具有重要的古生物学、古气候学、古生态学研究价值。但由于卵生动物种类十分丰富,卵形态特征多样,研究领域广泛,有必要总结梳理卵化石的研究进展。本文通过对主要卵生动物类群卵的形态特征,以及卵化石在古生物学、古气候学、古生态学方面研究进展的回顾,发现卵化石的研究主要集中在脊椎动物类群,为脊椎动物演化提供了重要证据,但是由于脊椎动物卵化石通常难以建立连续的长序列记录,其古生态学和古气候学研究极为不足。然而,无脊椎动物卵化石由于数量丰富,具有统计意义,其在古生态学、古气候学研究领域具有重要意义,但是其在古生物学,包括种属鉴定等方面的研究需要加强。在无脊椎动物中,蜗牛及其卵化石在黄土-古土壤地层中保存丰富且地层分布连续,最有可能建立卵化石的长序列。通过现代过程研究,明确蜗牛卵的气候指示意义,建立第四纪蜗牛卵化石长序列,发挥蜗牛卵化石的古气候学和古生态学研究价值,是亟需开展的研究工作。     

Pre-instrumental perspectives on Arkansas River cross-watershed flow variability

We present four reconstruction estimates of Arkansas River baseflow and streamflow using a total of 78 tree-ring chronologies for three streamflow gages, geographically spanning the headwaters in Colorado to near the confluence of the Arkansas-Mississippi rivers. The estimates represent different seasonal windows, which are dictated by the shared limiting forcing of precipitation on seasonal tree growth and soil moisture—and subsequently on the variability of Arkansas River discharge. Flow extremes that were higher and lower than what has been observed in the instrumental era are recorded in each of the four reconstructions. Years of concurrent, cross-basin (all sites) low flow appear more frequently during the 20th and 21st Centuries compared to any period since 1600 A.D., however, no significant trend in cross-basin low flow is observed. As the most downstream major tributary of the Mississippi River, the Arkansas River directly influences flood risk in the Lower Mississippi River Valley. Estimates of extreme high flow in downstream reconstructions coincide with specific years of historic flooding documented in New Orleans, Louisiana, just upstream of the Mississippi River Delta. By deduction, Mississippi River flooding in years of low Arkansas River flow imply exceptional flooding contributions from the Upper Mississippi River catchments.