Diurnal variability of the planetary boundary layer height estimated from radiosonde data

IF 2.9 3区 地球科学
Jie Gu, YeHui Zhang, Na Yang, Rui Wang
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引用次数: 12

Abstract

Diurnal variations in the planetary boundary layer height (PBLH) at different latitudes over different surface characteristics are described, based on 45 years (1973−2017) of radiosonde observations. The PBLH is determined from the radiosonde data by the bulk Richardson number (BRN) method and verified by the parcel method and the potential temperature gradient method. In general, the BRN method is able to represent the height of the convective boundary layer (BL) and neutral residual layer cases but has relatively large uncertainty in the stable BL cases. The diurnal cycle of the PBLH over land is quite different from the cycle over ocean, as are their seasonal variations. For stations over land, the PBLH shows an apparent diurnal cycle, with a distinct maximum around 15:00 LT, and seasonal variation, with higher values in summer. Compared with the PBLH over land, over oceans the PBLH diurnal cycles are quite mild, the PBLHs are much lower, and the seasonal changes are less pronounced. The seasonal variations in the median PBLH diurnal cycle are positively correlated with the near-surface temperature and negatively correlated with the near-surface relative humidity. Finally, although at most latitudes the daytime PBLH exhibits, over these 45 years, a statistically significant increasing trend at most hours between 12:00 LT and 18:00 LT over both land and ocean, there is no significant trend over either land or ocean in the nighttime PBLH for almost all the studied latitudes.

由无线电探空数据估计的行星边界层高度的日变率
基于45年(1973 - 2017)的探空观测,描述了不同纬度不同地表特征下行星边界层高度(PBLH)的日变化。用体积理查德森数(BRN)法从探空数据中确定了PBLH,并用包裹法和位温梯度法进行了验证。一般而言,BRN方法能够表示对流边界层(BL)和中性残差层的高度,但在稳定BL情况下存在较大的不确定性。陆地上PBLH的日循环与海洋上的周期有很大的不同,它们的季节变化也是如此。对于陆地站点,PBLH表现出明显的日循环,在15:00 LT附近有明显的最大值,并表现出季节变化,在夏季较高。与陆地上的PBLH相比,海洋上的PBLH日循环较为温和,PBLH要低得多,季节变化也不明显。PBLH中值日循环的季节变化与近地表温度呈正相关,与近地表相对湿度呈负相关。最后,尽管在大多数纬度,白天PBLH在12点至18点之间在陆地和海洋上都呈现出统计上显著的增加趋势,但在几乎所有研究纬度,夜间PBLH在陆地和海洋上都没有显著的趋势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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