Calystegia hederacea (Convolvulaceae) is one of the most problematic perennial weeds widely distributed around or in crop fields. Our previous studies showed that C. hederacea is natural reservoir of sweet potato chlorotic stunt virus isolate CH (SPCSV-CH) and sweet potato latent virus (SPLV) (Liu et al. 2020; Zhao et al. 2022). To shed further light on the role of C. hederacea in the epidemiology of sweet potato viruses, in May 2021, a total of seven C. hederacea plants (five asymptomatic, one curling and one mild vein-clearing) were collected from two different sweet potato fields in Xinxiang city of Henan Province in China. Total RNA was prepared from a pool of the seven leaf samples using the EZNA Plant RNA Kit (Omega Bio-Tek, Norcross, GA). A library was constructed from the ribosomal-depleted RNA using the NEBNext Ultra Directional RNA Library Prep Kit for Illumina (NEB, MA, USA) and sequenced using the Illumina HiSeq platform (Novogene, Tianjin, China). A total of 139,057,020 paired-end clean reads of 150 bp were obtained after removing adaptor sequences and low-quality reads and used for de novo assembly using the Trinity (v2.2.0) software. Blast searches of the assembled contigs longer than 200 bp against NCBI nucleotide and protein sequence databases revealed the presence of 37 contigs (237 to 4885 bp) and 19 contigs (261 to 758 bp) with high nucleotide (nt) identity with SPLV and SPCSV-CH, respectively. The occurrence of SPLV and SPCSV-CH on C. hederacea was previously reported, and thus the contig sequences related to SPLV and SPCSV-CH were not subjected to further verification in this study. In addition, one contig (2,827 bp) with the highest nt sequence identity of 94.94% with sweet potato leaf curl Hubei virus (SPLCHbV, genus Begomovirus, family Geminiviridae, accession no. MK931304) was assembled from 16,592 reads, with average coverage depth of 740.5X. These results suggested the presence of SPLCHbV in C. hederacea. To further confirm the RNA sequencing result, each of the seven samples was tested by PCR using partially overlapping (italicized nucleotides) forward and reverse primers (SweeIn-F1, 5`-GGAGGAAGCTAAGTACGAGAATCAGTTAGAG-3`; SweeIn-R1, 5`-GCTTCCTCCTTGTGATTGTAAGTAACATGG-3`) that were designed based on the SPLCHbV-related contig for amplification of circular DNA viral genome (approximately 2.7 kb). Two symptomatic and three symptomless C. hederacea samples were SPLCHbV positive, indicating that virus-like symptoms of the two C. hederacea samples were probably not induced by SPLCHbV. Two of the five amplified products were completely sequenced and deposited to GenBank (accession nos. OQ551733 and OQ551734). Sequences analysis showed that the complete genome sequences of two SPLCHbV C. headrace isolates (2,763 nt and 2,761 nt) had 96.53% nt identity with each other and 95.92 to 97.70% nt identity with that of SPLCHbV isolate Shandong7-2017 (MK931304). In August 2021, fourteen C. hederacea plants (three symptomatic, 11 asymptomatic) collected from natural fields from Zhumadian and Pingdingshan cities in Henan Province, were tested by PCR using SweeIn-F1/R1 primers for SPLCHbV, showing that eight samples were SPLCHbV positive. SPLCHbV belongs to the sweepoviruses, a group of phylogenetically distinct begomoviruses infecting sweet potato, and was reported to infect sweet potato from many provinces of China (Wang et al., 2021). To the best of our knowledge, this is the first report of SPLCHbV infection in C. hederacea, which expands the natural host range of SPLCHbV.