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Blue honeysuckle (Lonicera caerulea L.) is a perennial plant of the Caprifoliaceae family and Lonicera genus, the largest genus in the plant kingdom. Between September 2021 and September 2022, a leaf spot disease was observed on ~20% of blue honeysuckles of the ‘Lanjingling’ cultivar grown in a 3.33 ha field at the Xiangyang base (126.96°E, 45.77°N) of the Northeast Agricultural University, Harbin (Heilongjiang Province, China). Leaf spots first presented black mildew centers, gradually covering large areas of the leaf until it eventually fell off. Small 3–4 mm segments of infected tissue from 50 randomly selected leaves were surface sterilized with 75% ethanol and 5% sodium hypochlorite, rinsed in sterile distilled water, and transferred to 9 cm Petri dishes containing potato dextrose agar (PDA) after drying. Finally, two isolated pathogens were obtained through single spore culture on PDA; they appeared as gray-black colonies and were named LD-12 and LD-121. The observed LD-12 and LD-121 conidia displayed a morphology consistent with Alternaria spp. They were obpyriform and dark brown, with 0–6 transverse and 0–3 longitudinal septa, measuring 6.00–17.70 μm × 9.30–42.30 μm and 5.70–20.70 μm × 8.40–47.70 μm for LD-12 and LD-121, respectively (n = 50). Genomic DNA was extracted from the two isolates for molecular verification, and PCR amplification was performed with ITS1/ITS4 (White et al. 1990), GPD1/GPD2 (Woudenberg et al. 2015), EFl-728F/EF1-986R (Carbone and Kohn 1999), RPB2-5F2/RPB2-7CR (Liu et al. 1999), and Alt-for/Alt-rev (Hong et al. 2005) primers. Sequences of LD-12 ITS (OQ607743), GPD (OQ623200), TEF (OQ623201), RPB2 (OQ658509), and ALT (OQ623199) revealed 99–100% of identity with Alternaria tenuissima sequences (KC584567, MK451973, LT707524, MK391051, and ON357632). Sequences of LD-121 ITS (OQ629881), GPD (OQ850078), TEF (OQ850075), RPB2 (OQ850076), and ALT (OQ850077) revealed 99–100% identity with A. alternata sequences (MN826219, ON055384, KY094927, MK637444, and OM849255). Nine two-year-old healthy plants from the ‘Lanjingling’ cultivar were selected for a pathogenicity test. Three plants were inoculated with either the LD-12 or LD-121 conidial suspension (1 × 106 spores/ml) or with clean water as an experimental control condition (Mirzwa-Mróz et al., 2018; Liu et al., 2021). All plants were cultured in a greenhouse at 28℃ under a 12-h light/dark cycle, and each experiment was performed three times. Typical leaf spot symptoms were observed on inoculated leaves after 10 d. The same pathogens reisolated from infected leaves displayed the same morphological and molecular traits. They were again identified as A. tenuissima and A. alternata, confirming Koch’s postulate. A. tenuissima and A. alternata were previously reported on Orychophragmus violaceus (Liu et al., 2021) and L. caerulea (Yan et al., 2022) in China. This study is the first report of a blue honeysuckle leaf spot caused by A. tenuissima in China. In the future, effective biological and chemical control should be used to prevent blue honeysuckle leaf spots in China.
Blue honeysuckle (Lonicera caerulea L.) is a perennial plant of the Caprifoliaceae family and Lonicera genus, the largest genus in the plant kingdom. Between September 2021 and September 2022, a leaf spot disease was observed on ~20% of blue honeysuckles of the ‘Lanjingling’ cultivar grown in a 3.33 ha field at the Xiangyang base (126.96°E, 45.77°N) of the Northeast Agricultural University, Harbin (Heilongjiang Province, China). Leaf spots first presented black mildew centers, gradually covering large areas of the leaf until it eventually fell off. Small 3–4 mm segments of infected tissue from 50 randomly selected leaves were surface sterilized with 75% ethanol and 5% sodium hypochlorite, rinsed in sterile distilled water, and transferred to 9 cm Petri dishes containing potato dextrose agar (PDA) after drying. Finally, two isolated pathogens were obtained through single spore culture on PDA; they appeared as gray-black colonies and were named LD-12 and LD-121. The observed LD-12 and LD-121 conidia displayed a morphology consistent with Alternaria spp. They were obpyriform and dark brown, with 0–6 transverse and 0–3 longitudinal septa, measuring 6.00–17.70 μm × 9.30–42.30 μm and 5.70–20.70 μm × 8.40–47.70 μm for LD-12 and LD-121, respectively (n = 50). Genomic DNA was extracted from the two isolates for molecular verification, and PCR amplification was performed with ITS1/ITS4 (White et al. 1990), GPD1/GPD2 (Woudenberg et al. 2015), EFl-728F/EF1-986R (Carbone and Kohn 1999), RPB2-5F2/RPB2-7CR (Liu et al. 1999), and Alt-for/Alt-rev (Hong et al. 2005) primers. Sequences of LD-12 ITS (OQ607743), GPD (OQ623200), TEF (OQ623201), RPB2 (OQ658509), and ALT (OQ623199) revealed 99–100% of identity with Alternaria tenuissima sequences (KC584567, MK451973, LT707524, MK391051, and ON357632). Sequences of LD-121 ITS (OQ629881), GPD (OQ850078), TEF (OQ850075), RPB2 (OQ850076), and ALT (OQ850077) revealed 99–100% identity with A. alternata sequences (MN826219, ON055384, KY094927, MK637444, and OM849255). Nine two-year-old healthy plants from the ‘Lanjingling’ cultivar were selected for a pathogenicity test. Three plants were inoculated with either the LD-12 or LD-121 conidial suspension (1 × 106 spores/ml) or with clean water as an experimental control condition (Mirzwa-Mróz et al., 2018; Liu et al., 2021). All plants were cultured in a greenhouse at 28℃ under a 12-h light/dark cycle, and each experiment was performed three times. Typical leaf spot symptoms were observed on inoculated leaves after 10 d. The same pathogens reisolated from infected leaves displayed the same morphological and molecular traits. They were again identified as A. tenuissima and A. alternata, confirming Koch’s postulate. A. tenuissima and A. alternata were previously reported on Orychophragmus violaceus (Liu et al., 2021) and L. caerulea (Yan et al., 2022) in China. This study is the first report of a blue honeysuckle leaf spot caused by A. tenuissima in China. In the future, effective biological and chemical control should be used to prevent blue honeysuckle leaf spots in China.
Blue honeysuckle is emerging as a popular edible fruit and folk medicine. However, from June to August 2021, a serious leaf-spot disease affected the yield and quality of blue honeysuckle in Harbin, Heilongjiang Province, China; the species and characteristics of the pathogens responsible for the disease are unknown. In this study, 30 fungal isolates were obtained from infected blue honeysuckle leaves, identified as Alternaria tenuissima based on morphological and molecular characteristics and phylogenetic analyses. To the best of our knowledge, this is one of the first studies to identify A. tenuissima as the causal agent of blue honeysuckle leaf spots in China. Pathogenicity tests of the isolates revealed that most isolates exhibited moderately pathogenic. All blue honeysuckle cultivars tested were found to be susceptible to 30 A. tenuissima isolates. In addition, elder, Dahurian rose fruit, sea-buckthorn, rowan, hawthorn, bird cherry, and sorb could be infected by A. tenuissima isolates, while European cranberry bush and nanking cherry were not infected. A. tenuissima isolates were highly sensitive to prochloraz (EC50 ≤ 0.50 μg·ml–1) with 86.21% efficacy at 400 μg·ml–1 in the field trials. Therefore, the application of rotation and chemical fungicides are considered to control the disease-causing leaf spots in blue honeysuckle. These results provide a basis for controlling A. tenuissima in blue honeysuckle in China.
Blue honeysuckle (Lonicera caerulea L.) cultivation has gradually expanded in China but continues to be limited by challenges such as leaf spot disease. Between September 2022 and September 2023, a leaf spot disease was observed on approximately 30% of ‘Lanjingling’ blue honeysuckles grown in a 2.66 ha field (a total of about 11,000 plants) in Jiamusi city (130.47°E, 46.16°N), Heilongjiang Province, China. Affected plants displayed brown necrotic lesions on their leaves that gradually expanded in area until the leaves fell off the plant entirely. Small, 3 to 4 mm segments of infected tissue from 50 randomly selected leaves were surface sterilized with 75% ethanol for 30 s and 5% sodium hypochlorite (NaOCl) for 3 min, rinsed three times with sterile distilled water, dried on paper towels, and plated in 9 cm Petri dishes containing potato dextrose agar (PDA) (Yan et al. 2022). Five pathogens (LD-232, LD-233, LD-234, LD-235, and LD-236) were isolated on PDA and displayed a conidia morphology consistent with Pseudopithomyces spp. (Perelló et al. 2017). The fungal colonies on PDA were villiform, white, and whorled and had sparse aerial mycelium on the surface with black conidiomata. The conidia were obpyriform and dark brown, had 0 to 3 transverse and 0 to 1 longitudinal septa, and measured 9.00 to 15.30 μm × 5.70 to 9.30 μm in size (n = 50). Genomic DNA was extracted from a representative isolate, LD-232, for molecular verification and PCR amplification was performed with ITS1/ITS4 (White et al. 1990), LROR/LR7 (Carbone and Kohn 1999), and RPB2-5F2/RPB2-7CR (Liu et al. 1999) primers. Sequences of LD-232 ITS (OR835654), LSU (OR835652), and RPB2 (OR859769) revealed 99.8% (530/531 nt), 98.8% (639/647 nt), and 99.8% (1015/1017 nt) shared identity with Pseudopithomyces chartarum sequences (OP269600, OP237014, and MK434892), respectively (Wu et al. 2023). Bayesian inference (BI) was used to construct the phylogenies using Mr. Bayes v. 3.2.7 to confirm the identity of the isolates (Ariyawansa et al. 2015). Phylogenetic trees cannot be constructed based on the genes’ concatenated sequences because selective strains do not have complete rDNA-ITS, LSU, and RPB2 sequences. Therefore, based on the morphological characteristics and molecular phylogeny, LD-232 was identified as P. chartarum (Perelló et al. 2017; Wu et al. 2023). A pathogenicity test was performed with six healthy, two-year-old ‘Lanjingling’ blue honeysuckle plants. Three plants were inoculated by spraying the LD-232 conidial suspension (1 × 106 spores/ml) or clean water as an experimental control condition (Wu et al. 2023; Yan et al. 2023). All plants were cultured in a greenhouse at 28℃ under a 12-h light/dark cycle, and each experiment was replicated three times. Typical leaf spot symptoms were observed on inoculated leaves after 10 days. The same pathogens were reisolated from infected leaves, displayed the same morphological and molecular traits, and were again identified as P. chartarum, confirming Koch’s postulate. P. chartarum previously caused leaf spot disease on Tetrapanax papyrifer in China (Wu et al. 2023). To our knowledge, this is the first report of blue honeysuckle leaf spot caused by P. chartarum in China. Identification of P. chartarum as a disease agent on blue honeysuckle will help guide future management of leaf diseases for this economically important small fruit tree.
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