| [1] | 安乐. 2017. R型因子分析在地球化学数据统计中的应用[J]. 甘肃科技,33(16):46-48. An Le. 2017. Application of R-factor analysis in geochemical data statistics[J]. Gansu Science and Technology, 33(16): 46-48. |
| [2] | 陈骏,季峻峰,仇纲,等. 1997. 陕西洛川黄土化学风化程度的地球化学研究[J]. 中国科学:地球科学,27(6):531-536. Chen Jun, Ji Junfeng, Qiu Gang, et al. 1997. Geochemical studies on the intensity of chemical weathering in Luochuan loess-paleosol sequence, China[J]. Science in China Earth Sciences, 27(6): 531-536. |
| [3] | 程峰. 2018. 中国南方更新世红土沉积物的特征及其物源研究[D]. 武汉:中国地质大学:36-53. Cheng Feng. 2018. Study on characteristics and source provenance of the Pleistocene red earth sediments in southern China[D]. Wuhan: China University of Geosciences: 36-53. |
| [4] | 胡雪峰,沈铭能,方圣琼. 2004. 皖南网纹红土的粒度分布特征及古环境意义[J]. 第四纪研究,24(2):160-166. Hu Xuefeng, Shen Mingneng, Fang Shengqiong. 2004. Grain-size distribution of the reticulate red clay in southern Anhui province and its paleo-environmental significance[J]. Quaternary Sciences, 24(2): 160-166. |
| [5] | 胡雪峰,朱煜,沈铭能. 2005. 南方网纹红土多元成因的粒度证据[J]. 科学通报,50(9):918-925. Hu Xuefeng, Zhu Yu, Shen Mingneng. 2005. Grain-size evidence for multiple origins of the reticulate red clay in southern China[J]. Chinese Science Bulletin, 50(9): 918-925. |
| [6] | 黄颖. 2020. 中亚热带地区加积型红土稀土元素分馏特征及环境意义[D]. 金华:浙江师范大学:31-37. Huang Ying. 2020. Rare earth elements fractionation characteristics and its environmental significance of aggradation red earth in middle subtropical[D]. Jinhua: Zhejiang Normal University: 31-37. |
| [7] | 黄镇国,张伟强,陈俊鸿,等. 1996. 中国南方红色风化壳[M]. 北京:海洋出版社: 138-151,178-199. Huang Zhenguo, Zhang Wei-qiang, Chen Junhong, et al. 1996. Red residuum in South China[M]. Beijing: China Ocean Press: 138-151, 178-199. |
| [8] | 蒋复初,吴锡浩,肖华国,等. 1997. 九江地区网纹红土的时代[J]. 地质力学学报,3(4):27-32. Jiang Fuchu, Wu Xihao, Xiao Huaguo, et al. 1997. Age of the vermiculated red soil in Jiujiang areas, central China[J]. Journal of Geomechanics, 3(4): 27-32. |
| [9] | 蒋旭霞,王天阳,李凤全,等. 2025. 网纹红土微区内元素的分布特征及网纹化过程[J]. 沉积学报,43(3): 1049-1058. Jiang Xuxia, Wang Tianyang, Li Fengquan, et al. 2025. Distribution characteristics of reticular red clay micro-areas and the formation process of the reticulated mechanism[J]. Acta Sedimentologica Sinica, 43(3): 1049-1058. |
| [10] | 来红州,莫多闻,李新坡. 2005. 洞庭盆地红土地层中网纹的成因探讨[J]. 北京大学学报(自然科学版),,41(2):240-248. Lai Hongzhou, Mo Duowen, Li Xinpo. 2005. Genesis of reticulate clay in the laterite of the Dongting Basin[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 41(2): 240-248. |
| [11] | 李凤全,叶玮,朱丽东,等. 2010. 第四纪网纹红土的类型与网纹化作用[J]. 沉积学报,28(2):346-355. Li Fengquan, Ye Wei, Zhu Lidong, et al. 2010. The types and formation of Quaternary plinthitic red earth[J]. Acta Sedimentologica Sinica, 28(2): 346-355. |
| [12] | 李宁,张威,苏世兵. 2022. 辽东半岛碧流河口潮间带表层沉积物中重金属分布规律、环境评价及溯源研究[J]. 河南师范大学学报(自然科学版),50(6):60-70. Li Ning, Zhang Wei, Su Shibing. 2022. Study on the distribution law, environmental assessment and source traceability of heavy metals in the surface sediments of Biliu River intertidal zone in Liaodong Peninsula[J]. Journal of Henan Normal University (Natural Science Edition), 50(6): 60-70. |
| [13] | 李文慧,胡春生,田景梅,等. 2020. 安徽宣城向阳剖面第四纪红土常量元素地球化学特征及其古气候意义[J]. 山地学报,38(3):371-383. Li Wenhui, Hu Chunsheng, Tian Jingmei, et al. 2020. Geochemical characteristics and paleoclimate significance of major elements of the Quaternary red clay in the Xiangyang section in Xuanchen, Anhui province, China[J]. Mountain Research, 38(3): 371-383. |
| [14] | 李晓波,李杭,杨宝萍,等. 2022. 泰安市旧县水源地水化学特征及成因分析[J]. 环境工程技术学报,12(6):2002-2010. Li Xiaobo, Li Hang, Yang Baoping, et al. 2022. Hydrochemical characteristics and formation mechanism of water source area in Jiuxian county, Tai’an city[J]. Journal of Environmental Engineering Technology, 12(6): 2002-2010. |
| [15] | 林梵宇,尹希杰,黄杰超,等. 2021. 利用微区XRF技术测定地质样品中元素含量研究[J]. 矿物岩石,41(4):59-67. Lin Fanyu, Yin Xijie, Huang Jiechao, et al. 2021. Determination of element content in geological samples by micro-XRF technique[J]. Mineralogy and Petrology, 41(4): 59-67. |
| [16] | 凌超豪,龙进,贾玉连,等. 2015. 赣北鄱阳湖地区土塘剖面第四纪红土地球化学特征及古气候意义[J]. 古地理学报,17(5):699-708. Ling Chaohao, Long Jin, Jia Yulian, et al. 2015. Geochemical characteristics and palaeoclimate significance of the Quaternary laterite of Tutan section in Poyang Lake region, northern Jiangxi province[J]. Journal of Palaeogeography, 17(5): 699-708. |
| [17] | 刘春生. 2023. 基于地球物理地球化学的黑龙江区域地质特征研究[J]. 能源与节能,28(6):35-40,191. Liu Chunsheng. 2023. Regional geological features of Heilongjiang based on geophysics and geochemistry[J]. Energy and Energy Conservation, 6: 35-40, 191. |
| [18] | 刘俊余,查小春,黄春长,等. 2018. 甘肃天水全新世黄土—古土壤序列化学风化特征及其古气候意义[J]. 沉积学报,36(5):937-945. Liu Junyu, Zha Xiaochun, Huang Chunchang, et al. 2018. Chemical weathering characteristics and its climate significance of Holocene loess-paleosol sequence in Tianshui of Gansu province[J]. Acta Sedimentologica Sinica, 36(5): 937-945. |
| [19] | 马桢桢. 2022. 加积型红土粉砂组分元素地球化学特征及物源解译[D]. 金华:浙江师范大学:29-38. Ma Zhenzhen. 2022. Geochemical charcateristics and their provenance implication of the silt fraction from aggradation red earth[D]. Jinhua: Zhejiang Normal University: 29-38. |
| [20] | 王春林. 1986. 湖南第四系蠕虫状网纹红土的成因及其对新构造运动研究的意义[J]. 湖南师范大学(自然科学学报),9(1):100-106. Wang Chunlin. 1986. On the origin of Quaternary worm-like net-veined red (laterite) soil in Hunan province and its significant in neotectonic studies[J]. Journal of Natural Science of Hunan Normal University, 9(1): 100-106. |
| [21] | 汪玲玲,李凤全,吴开钦,等. 2024. 九江加积型红土网纹形态特征及其环境意义[J]. 沉积学报,42(2): 534-544. Wang Lingling, Li Fengquan, Wu Kaiqin, et al. 2024. Reticulate morphologies and environmental significance of red earth aggradation in Jiujiang[J]. Acta Sedimentologica Sinica, 42(2): 534-544. |
| [22] | 王祎亚,高新华,王毅民,等. 2020. X射线荧光光谱原位微区分析的地学应用评介[J]. 冶金分析,40(10):86-98. Wang Yiya, Gao Xinhua, Wang Yimin, et al. 2020. Review on the application of in-situ X-ray fluorescence spectrometry analysis in geosciences[J]. Metallurgical Analysis, 40(10): 86-98. |
| [23] | 吴开钦. 2022. 我国南方加积型网纹红土网纹形态特征及其与理化性质的关系[D]. 金华:浙江师范大学:28-31. Wu Kaiqin. 2022. Morphological characteristics of reticulate red earth and their relationship with physicochemical properties in southern China[D]. Jinhua: Zhejiang Normal University: 28-31. |
| [24] | 吴开钦,李凤全,王天阳,等. 2023. 浙江金华红土网纹成因的磁学证据[J]. 沉积学报,41(3):706-719. Wu Kaiqin, Li Fengquan, Wang Tianyang, et al. 2023. Magnetic characteristics evident in the formation of the reticulate structure of red paleosol in Jinhua, Zhejiang[J]. Acta Sedimentologica Sinica, 41(3): 706-719. |
| [25] | 熊平生. 2015. 江西赣县花岗岩型红土剖面常量元素地球化学特征[J]. 高校地质学报,21(3):553-558. Xiong Pingsheng. 2015. Major elements geochemical characteristics of the granite-type laterite profilein Gan Xian, Jiangxi province[J]. Geological Journal of China Universities, 21(3): 553-558. |
| [26] | 熊尚发,刘东生,丁仲礼. 2000. 南方红土的剖面风化特征[J]. 山地学报,18(1):7-12. Xiong Shangfa, Liu Tungsheng, Ding Zhongli. 2000. The weathering sequence of the red earth over southern China[J]. Mountain Research, 18(1): 7-12. |
| [27] | 熊文婷. 2022. 加积型红土地球化学粒级效应及其环境意义[D]. 金华:浙江师范大学:13-38. Xiong Wenting. 2022. Geochemical grain size effect of aggradational red earth and its environmental significance[D]. Jinhua: Zhejiang Normal University: 13-38. |
| [28] | 徐传奇,廖富强,贾玉连,等. 2016. 中国南方网纹红土元素地球化学特征及其对网纹化过程的指示意义[J]. 古地理学报,18(5):865-878. Xu Chuanqi, Liao Fuqiang, Jia Yulian, et al. 2016. Element geochemical characteristics of the reticulate red clay in southern China and its significance for the formation proccess of reticulated mottles[J]. Journal of Palaeogeography, 18(5): 865-878. |
| [29] | 许良宇,杨立辉,张硕,等. 2021. 宣城向阳剖面网纹红土粒度端元分析及指示意义[J]. 地球与环境,49(6):646-654. Xu Liangyu, Yang Lihui, Zhang Shuo, et al. 2021. End member analysis on grain size of reticulated red clay and its indication significance in Xiangyang section of Xuancheng[J]. Earth and Environment, 49(6): 646-654. |
| [30] | 杨立辉,程菲,陈洁,等. 2023. 南方第四纪红土碎屑锆石U-Pb年龄物源示踪的适用性探讨[J]. 地理研究,42(9):2508-2519. Yang Lihui, Cheng Fei, Chen Jie, et al. 2023. Applicability of detrital zircon U-Pb ages characteristics in southern Quaternary red clay for provenance tracing[J]. Geographical Research, 42(9): 2508-2519. |
| [31] | 叶玮,郑万乡,李凤全,等. 2008. 中亚热带红土与水稻土铁锰结核理化特性与形成环境对比[J]. 山地学报,26(3):293-299. Ye Wei, Zheng Wanxiang, Li Fengquan, et al. 2008. The composition and dipositing condition of ferro-manganese nodules developed in Quaternary red earth and paddy soil in mid-subtropica zonie, China[J]. Mountain Research, 26(3): 293-299. |
| [32] | 尹秋珍,郭正堂. 2006. 中国南方的网纹红土与东亚季风的异常强盛期[J]. 科学通报,51(2):186-193. Yin Qiuzhen, Guo Zhengtang. 2006. Mid-Pleistocene vermiculated red soils in southern China as an indication of unusually strengthened East Asian monsoon[J]. Chinese Science Bulletin, 51(2): 186-193. |
| [33] | 袁双. 2010. 网纹红土铁形态特征与网纹红土形成环境[D]. 金华:浙江师范大学:24-62. Yuan Shuang. 2010. Iron features and formation environment of vermicular red earth[D]. Jinhua: Zhejiang Normal University: 24-62. |
| [34] | 张启燕,刘晓,杨玠,等. 2022. 微区X射线荧光成像技术在岩心分析中的应用[J]. 光谱学与光谱分析,42(7):2200-2206. Zhang Qiyan, Liu Xiao, Yang Jie, et al. 2022. Application of micro X-Ray fluorescence imaging technology in core analysis[J]. Spectroscopy and Spectral Analysis, 42(7): 2200-2206. |
| [35] | 张硕. 2020. 宣城向阳剖面网纹红土微区地球化学特征及网纹成因研究[D]. 芜湖:安徽师范大学:12-45. Zhang Shuo. 2020. The study of micro-area geochemical characteristics and genesis of reticulated red clay in Xiangyang Xuancheng profile[D]. Wuhu: Anhui Normal University: 12-45. |
| [36] | 张晓,朱丽东,黄颖,等. 2020. 加积型网纹红土网纹化机制及形成环境[J]. 第四纪研究,40(1):214-228. Zhang Xiao, Zhu Lidong, Huang Ying, et al. 2020. The reticulated mechanism and its climatic implication of aggradation red earth[J]. Quaternary Sciences, 40(1): 214-228. |
| [37] | 张语轩,耿秀丽,潘飞. 2024. 基于多源数据的智慧养老服务供需匹配研究[J]. 上海理工大学学报,46(2):214-224. Zhang Yuxuan, Geng Xiuli, Pan Fei. 2024. Supply-demand matching of smart elderly care services based on multi-source data[J]. Journal of University of Shanghai for Science and Technology, 46(2): 214-224. |
| [38] | 赵振华,赵学升,朱琳,等. 2022. 黄河流域(济南段)土壤元素地球化学组合特征研究[J]. 地质与勘探,58(6):1209-1227. Zhao Zhenhua, Zhao Xuesheng, Zhu Lin, et al. 2022. Geochemical combination characteristics of soil elements in the Yellow River Basin (Jinan section)[J]. Geology and Exploration, 58(6): 1209-1227. |
| [39] | 朱景郊. 1988. 网纹红土的成因及其研究意义[J]. 地理研究,7(4):12-20. Zhu Jingjiao. 1988. Genesis and research significance of the plinthitic horizon[J]. Geographical Research, 7(4): 12-20. |
| [40] | 朱丽东. 2007. 中亚热带加积型红土及其所记录的第四纪环境变化探讨[D]. 兰州:兰州大学:9-54. Zhu Lidong. 2007. Aggradation red earth sediments in mid-subtropics of China and their recorded environmental changes during Quaternary[D]. Lanzhou: Lanzhou University: 9-54. |
| [41] | 朱丽东,周尚哲,叶玮,等. 2005. 中国南方红土沉积与环境变化研究[J]. 浙江师范大学学报(自然科学版),28(2):206-210. Zhu Lidong, Zhou Shangzhe, Ye Wei, et al. 2005. Study on the red earth sediment and environmental changes in South China[J]. Journal of Zhejiang Normal University (Natural Sciences), 28(2): 206-210. |
| [42] | 朱丽东,周尚哲,叶玮,等. 2007. 网纹红土稀土元素地球化学特征的初步研究[J]. 中国沙漠,27(2):194-200. Zhu Lidong, Zhou Shangzhe, Ye Wei, et al. 2007. Preliminary study on geochemical behavior of rare earth element of plinthitic red earth in South China[J]. Journal of Desert Research, 27(2): 194-200. |
| [43] | Cullers R L. 2000. The geochemistry of shales, siltstones and sandstones of Pennsylvanian–Permian age, Colorado, USA: Implications for provenance and metamorphic studies[J]. Lithos, 51(3): 181-203. |
| [44] | Dequincey O, Chabaux F, Clauer N, et al. 2002. Chemical mobilizations in laterites: Evidence from trace elements and 238U-234U-230Th disequilibria[J]. Geochimica et Cosmochimica Acta, 66(7): 1197-1210. |
| [45] | Hao Q Z, Guo Z T, Qiao Y S, et al. 2010. Geochemical evidence for the provenance of Middle Pleistocene loess deposits in southern China[J]. Quaternary Science Reviews, 29(23/24): 3317-3326. |
| [46] | Hong H L, Gu Y S, Yin K, et al.2010. Red soils with white net-like veins and their climate significance in South China[J]. Geoderma, 160(2): 197-207. |
| [47] | Hong H L, Li Z H, Yang M Z, et al. 2009.Kaolin in the net-like horizon of laterite in Hubei, South China[J]. Clay Minerals, 44(1): 51-66. |
| [48] | Hu X F, Du Y, Guan C L, et al. 2014. Color variations of the Quaternary red clay in southern China and its paleoclimatic implications[J]. Sedimentary Geology, 303: 15-25. |
| [49] | Hu X F, Wei J, Du Y, et al. 2010. Regional distribution of the Quaternary red clay with aeolian dust characteristics in subtropical China and its paleoclimatic implications[J]. Geoderma, 159(3/4): 317-334. |
| [50] | Hu X F, Wei J, Xu L F, et al. 2009. Magnetic susceptibility of the Quaternary red clay in subtropical China and its paleoenvironmental implications[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 279(3/4): 216-232. |
| [51] | Stiles C A, Mora C I, Driese S G. 2003. Pedogenic processes and domain boundaries in a vertisol climosequence: Evidence from titanium and zirconium distribution and morphology[J]. Geoderma, 116(3/4): 279-299. |
| [52] | Taylor S R, Mclennan S M. 1985. The continental crust: Its composition and evolution[J]. The Journal of Geology, 94(4): 57-72. |
| [53] | Vepraskas M J. 1994. Redoximorphic features for identifying aquic conditions[J]. North Carolina Agricultural Research Service. Technical Bulletin, 64: 301. |
| [54] | Wang S Y, Lin S, Lu S G. 2013. Rock magnetism, iron oxide mineralogy and geochemistry of Quaternary red earth in central China and their paleopedogenic implication[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 379/380: 95-103. |