{"references": ["Bagnold, R.A., 1936. The movement of desert sand. Proceedings of the Royal Society of London. Series A-Mathematical and Physical Sciences 157, 594\u2013620.", "Bagnold, R.A., 1937. The size-grading of sand by wind. Proceedings of the Royal Society of London. Series A-Mathematical and Physical Sciences 163, 250\u2013264.", "Bagnold, R.A., 1938. The measurement of sand storms. Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences 167, 282\u2013291.", "Cheng, H., Zou, X., Liu, C., He, J., Wu, Y., 2013. Transport mass of creeping sand grains and their movement velocities. Journal of Geophysical Research: Atmospheres 118, 6374\u20136382.", "Cheng, H., He, J., Zou, X., Li, J., Liu, C., Liu, B., Zhang, C., Wu, Y., Kang, L., 2015a. Characteristics of particle size for creeping and saltating sand grains in aeolian transport. Sedimentology 62, 1497\u20131511.", "Dong, Z., Liu, X., Wang, H., Zhao, A., Wang, X., 2003. The flux profile of a blowing sand cloud: a wind tunnel investigation. Geomorphology 49, 219\u2013230.", "Dong, Z., Wang, H., Liu, X., Wang, X., 2004. A wind tunnel investigation of the influences of fetch length on the flux profile of a sand cloud blowing over a gravel surface. Earth Surface Processes and Landforms: The Journal of the British Geomorphological Research Group 29, 1613\u20131626.", "Han, Q., Qu, J., Liao, K., Zhang, K., Zu, R., Niu, Q., 2012. A wind tunnel study of the parameters for aeolian sand transport above a wetted sand surface using sands from a tropical humid coastal region of southern China. Environmental Earth Sciences 67, 243\u2013250.", "Han, Q., Qu, J., Dong, Z., Zhang, K., Zu, R., 2015. Air density effects on aeolian sand movement: Implications for sediment transport and sand control in regions with extreme altitudes or temperatures. Sedimentology 62, 1024\u20131038.", "Hijma, M.P., Lodder, Q.J., 2001. An evaluation of aeolian sand transport models using four different sand traps at the Hors, Texel.", "Horikawa, K., Shen, H.W., 1960. Sand movement by wind action:(on the characteristics of sand traps).", "Liu, F., Hao, Y., Xin, Z., Chen, H., Xu, J., and Zhao Y., 2014. The surface aeolian-sand flow structure in the northeastern margin of the Ulanbuh desert. Journal of Desert Research (in Chinese with English abstract), 34(5), 1200-1207.", "Namikas, S.L., 2003. Field measurement and numerical modelling of aeolian mass flux distributions on a sandy beach. Sedimentology 50, 303\u2013326.", "Nickling, W.G., 1978. Eolian sediment transport during dust storms: Slims River valley, Yukon Territory. Canadian Journal of Earth Sciences 15, 1069\u20131084.", "Sherman, D.J., Zhang, P., Martin, R.L., Ellis, J.T., Kok, J.F., Farrell, E.J., Li, B., 2019. Aeolian ripple migration and associated creep transport rates. Geosciences 9, 1\u201319.", "Stout, John E, Zobeck, T.M., 1996. The Wolfforth field experiment: a wind erosion study. Soil Science 161, 616\u2013632.", "Wang, P., Zhang, J., Dun, H., Herrmann, H.J., Huang, N., 2020. Aeolian creep transport: Theory and experiment. Geophysical Research Letters 47, e2020GL088644."]}

Overview: The attached file, “AeolianCreepTransportReview.xlsx”, summarizes the sources, nature, and characteristics of the data plotted in Figures 7 and 8 in the article “Aeolian Creep Transport: A Review” by Pei, Zhang; Douglas J. Sherman; Bailiang, Li, to be published in Aeolian Research. The focus of the article concerns the relative proportion of sand transported as creep compared to total transport as reported, directly or indirectly in literature describing field and wind tunnel studies.