Alstroemeria, a member of the Alstroemriaceae family, is a popular cut flower plant with a long-base life and a wide variety of flower colors. It is widely cultivated in many countries, especially in Central and South America. However, numerous viruses such as alstroemeria carlavirus (AlCV), alstroemeria mosaic virus (AlMV), cucumber mosaic virus (CMV), tomato spotted wilt virus (TSWV), alstroemeria streak virus (AlSV), and impatiens necrotic virus (INSV) can infect Alstroemeria and significantly decrease its yield (Kim, 2020). Among these viruses, AlMV is well known to cause an endemic viral disease in the Netherlands (Corine M. et al. 1992). AlMV is a member of the genus potyvirus in the family Potyviridae, one of the most widely distributed families of plant viruses. In 2021, symptomatic alstroemeria plants showing interveinal leaf streaking with elongated light green and chlorosis of leaves were identified from farms in a greenhouse in Gwangju, South Korea. Potyvirus-like particles (approximately 750-800 nm in length) were observed from sap of the symptomatic plants by electron microscope (Supplementary Fig. 1). To confirm virus infection, total RNA was extracted from an alstroemeria leaf using a Beniprep® Super Plant RNA extraction kit (IVT7005, Invirustech Co., Korea). A cDNA library was synthesized and analyzed by high throughput sequencing (HTS) using an Illumina NovaSeq6000 S4 sequencer. A total of 48,072,240 raw reads were obtained after quality filtering with FastQC. Remaining sequences were de novo assembled into contigs with a Trinity assembler. Nucleotide blast analysis of contigs against NCBI viral reference database revealed that 24 assembled contigs (> 1,000 bp) were sequences of AlMV. To confirm AlMV detection, raw reads were mapped to known AlMV complete genome (9,774 bp) using Bowtie2 program. Results showed that a total of 4,698,112 reads were mapped. A consensus sequence (9,778 bp, accession no. LC709275) was then obtained. To verify the presence of AlMV, RT-PCR assay was conducted with AlMV's CP gene-specific primers: AlMV-F (5'-CACGAGGCTGTGAAACAAGC -3') and AlMV-R (5'- CCAGGCGACACGGCTAAATA-3'). PCR products of the expected size (538 bp) were cloned, sequenced, and subjected to GenBank BLASTn search. A 538 bp partial CP sequence was used for BLAST analysis which revealed that it shared 100% identities with the consensus sequence (LC709275) and 96.99~98.76% nucleotide identities with four AlMV isolates (MK440140, NC043135, MT892648, DQ295032). Phylogenetic analysis based on partial CP sequences of representative members of potyviruses (family Potyviridae) using 1,000 bootstrap replicates based on either neighbor-joining or Kimura 2 parameter methods in MEGA-X revealed that AlMV isolate JNU-2 was grouped together with the four known AlMV isolates (Supplementary Fig. 2). To determine the incidence of AlMV in a greenhouse, 30 alstroemeria samples were collected and tested by RT-PCR. Results showed that 23 samples were positive for AlMV by PCR-gel electrophoresis and Sanger sequencing, suggesting a high incidence of AlMV infection. To the best of our knowledge, this is the first report of natural infection with AlMV in Alstroemeria in Korea. Further surveys of AlMV infection in greenhouses will help us prevent the spread of this viral disease in Alstroemeria.