Fourteen New Species of Foliar Colletotrichum Associated with the Invasive Plant Ageratinaadenophora and Surrounding Crops

Role of the Foliar Endophyte Colletotrichum in the Resistance of Invasive Ageratina adenophora to Disease and Abiotic Stress

Plant-associated fungi often drive plant invasion success by increasing host growth, disease resistance, and tolerance to environmental stress. A high abundance of Colletotrichum asymptomatically accumulated in the leaves of Ageratina adenophora. In this study, we aimed to clarify whether three genetically distinct endophytic Colletotrichum isolates (AX39, AX115, and AX198) activate invasive plant defenses against disease and environmental stress. We observed that, in the absence of pathogen attack and environmental stress, the foliar endophyte Colletotrichum reduced photosynthesis-related physiological indicators (i.e., chlorophyll content and soluble sugar content), increased resistance-related indicators (i.e., total phenolic (TP) and peroxidase (POD) activity), and decreased the biomass of A. adenophora. However, endophytic Colletotrichum strains exhibit positive effects on resistance to certain foliar pathogen attacks. Strains AX39 and AX115 promoted but AX198 attenuated the pathogenic effects of pathogen strains G56 and Y122 (members of Mesophoma ageratinae). In contrast, AX39 and AX115 weakened, but AX198 had no effect on, the pathogenic effect of the pathogen strain S188 (Mesophoma speciosa; Didymellaceae family). We also found that endophytes increase the biomass of A. adenophora under drought or nutrient stress. Strain AX198 significantly increased stem length and chlorophyll content under drought stress. Strain AX198 significantly increased the aboveground dry weight, AX115 increased the stem length, and AX39 significantly increased the chlorophyll content under nutrient stress. Our results revealed that there are certain positive effects of foliar Colletotrichum endophytes on A. adenophora in response to biotic and abiotic stresses, which may be beneficial for its invasion.

Two new species of Nectriaceae (Hypocreales, Sordariomycetes) from Yunnan, China

Nectriaceae is a highly diverse family, and members have a worldwide distribution, particularly in warm temperate to tropical regions. During the survey of fungal diversity in different habitats in Yunnan province, China, two new species isolated from soil and air respectively, namely Atractiumyunnanense sp. nov. and Nalanthamalaxishuangbannaensis sp. nov., were proposed based on morphological comparisons and the multi-gene phylogenetic analyses of combined ITS, LSU, rpb2, and tub2 sequence data. Phylogenetically, both species clustered in a monophyletic clade within Nectriaceae with strong support. A.yunnanense is characterized by synnematous conidiophores, pale olivaceous-green, clavate to oblong-ellipsoidal, multi-septate conidia, and pale olivaceous-green chlamydospores. N.xishuangbannaensis has acremonium-like or penicillium-like conidiophores and either obovate or ellipsoidal, cylindrical or fusiform conidia. Full descriptions, illustrations, and a phylogenetic tree showing the phylogenetic position of the two new species were provided.

Three new species of Colletotrichum (Glomerellales, Glomerellaceae) associated with walnut (Juglansregia) anthracnose from China

Colletotrichum species are significant pathogens of various economic plant hosts worldwide. In this study, 45 Colletotrichum isolates were obtained from symptomatic walnut leaves of walnut anthracnose in Shaanxi and Sichuan Provinces. In conjunction with morphological evidence and multi-gene phylogenetic analyses of internal transcribed spacer (ITS), actin (act), chitin synthase 1 (chs1), glyceraldehyde-3-phosphate dehydrogenase (gapdh) and beta-tubulin (tub2) sequences support the introduction of three new species, namely Colletotrichumcordae, C.guangyuanense and C.juglandium. Five species of Colletotrichum were identified to be C.fioriniae of the C.acutatum species complex, C.karsti of the C.boninense species complex, C.gloeosporioides, C.mengyinense and C.siamense of the C.gloeosporioides species complex. The three new species are described and illustrated in this paper and compared with taxa in the Colletotrichumgloeosporioides species complex. The current results improve the understanding of Colletotrichum species causing walnut anthracnose in China.

Colletotrichum species (Glomerellales, Glomerellaceae) causing walnut anthracnose in China

Colletotrichum species can function as plant pathogens, saprobes or endophytes on a wide variety of plant hosts and are considered amongst the ten most significant genera of plant pathogens globally. China contributes almost half the walnut production in the world. However, Colletotrichum species occurring on walnut remain largely unresolved in China. To explore the Colletotrichum species found on walnut in China, 470 walnut fruit or leaf samples with anthracnose were collected from 14 main walnut-producing regions across seven provinces. A total of 165 Colletotrichum strains were isolated from these samples. The Colletotrichum isolates were identified, based on morphological characteristics and sequence analyses of ACT, CHS-1, GAPDH, ITS and TUB2. Twelve species, including 11 known Colletotrichum species (C.boninense, C.citrulli, C.fioriniae, C.fructicola, C.godetiae, C.juglandicola, C.karsti, C.mengyinense, C.pandanicola, C.peakense and C.siamense) and a novel species (C.chinensis sp. nov.) were identified. The species distribution revealed regional prevalence as follows: C.mengyinense was the most dominant species in Gansu, C.mengyinense and C.siamense in Shandong, C.chinensis in Beijing, C.pandanicola in Shaanxi and C.godetiae in Yunnan. Colletotrichumsiamense was the sole species isolated in Sichuan and Xinjiang Provinces. Koch's postulates were fulfilled, demonstrating that all 12 species cause anthracnose on walnut. This is the first report of C.boninense, C.citrulli and C.karsti as pathogens of walnut anthracnose worldwide.

Genetic Evidence for Colletotrichum gloeosporioides Transmission Between the Invasive Plant Ageratina adenophora and Co-occurring Neighbor Plants

To understand the disease-mediated invasion of exotic plants and the potential risk of disease transmission in local ecosystems, it is necessary to characterize population genetic structure and spatio-temporal dynamics of fungal community associated with both invasive and co-occurring plants. In this study, multiple genes were used to characterize the genetic diversity of 165 strains of Colletotrichum gloeosporioides species complex (CGSC) isolated from healthy leaves and symptomatic leaves of invasive plant Ageratina adenophora, as well as symptomatic leaves of its neighbor plants from eleven geographic sites in China. The data showed that these CGSC strains had a high genetic diversity in each geographic site (all Hd > 0.67 and Pi > 0.01). Haplotype diversity and nucleotide diversity varied greatly in individual gene locus: gs had the highest haplotype diversity (Hd = 0.8972), gapdh had the highest nucleotide diversity (Pi = 0.0705), and ITS had the lowest nucleotide diversity (Pi = 0.0074). Haplotypes were not clustered by geographic site, invasive age, or isolation source. AMOVA revealed that the genetic variation was mainly from within-populations, regardless of geographic or isolation origin. Both AMOVA and neutrality tests indicated these CGSC strains occurred gene exchange among geographic populations but did not experience population expansion along with A. adenophora invasion progress. Our data indicated that A. adenophora primarily accumulated these CGSC fungi in the introduced range, suggesting a high frequency of CGSC transmission between A. adenophora and co-occurring neighbor plants. This study is valuable for understanding the disease-mediated plant invasion and the potential risk of disease transmission driven by exotic plants in local ecosystems.

Two new species of Colletotrichum (Glomerellaceae, Glomerellales) causing walnut anthracnose in Beijing

Colletotrichum species are plant pathogens, saprobes and endophytes on various plant hosts. It is regarded as one of the 10 most important genera of plant pathogens in the world. Walnut anthracnose is one of the most severe diseases affecting walnut productivity and quality in China. In this study, 162 isolates were obtained from 30 fruits and 65 leaf samples of walnut collected in Beijing, China. Based on morphological characteristics and DNA sequence analyses of the concatenated loci, namely internal transcribed spacer (ITS), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), actin (ACT), chitin synthase 1 (CHS-1) and beta-tubulin (TUB2), these isolates were identified as two novel species of Colletotrichum, i.e. C.juglandicola and C.peakense. Koch's postulates indicated that both C.juglandicola and C.peakense could cause anthracnose in walnut.

A real-time PCR for detection of pathogens of anthracnose on Chinese fir using TaqMan probe targeting ApMat gene

BACKGROUND

Anthracnose is one of the most widespread and destructive diseases on Chinese fir. Colletotrichum cangyuanense, Colletotrichum fructicola, Colletotrichum gloeosporioides, and Colletotrichum siamense are the causal agents of anthracnose on Chinese fir. A rapid and accurate diagnosis of different pathogens is critical for the disease management.

RESULTS

Phylogenetic tree and sequence similarity analysis showed that the single-locus ApMat provides superior phylogenetic information and is an appropriate target to distinguish C. cangyuanense, C. fructicola, C. gloeosporioides, and C. siamense. The real-time PCR assays with the primer sets of MQ-F/R, 1#C-F/R, YK-F/R, and WZ-F/R, and corresponding TaqMan probes of MQ-P, 1#C-P, YK-P, and WZ-P were specific for C. cangyuanense, C. fructicola, C. gloeosporioides, and C. siamense, respectively. The sensitivity tests showed that the lowest amount of gDNA that the PCRs can detect was 1 ng of genomic DNA. The validity of the assays was confirmed by directly detecting the pathogens from both the fungal culture and infected Chinese fir.

CONCLUSION

These results demonstrated the potential of the TaqMan real-time PCR targeting the ApMat gene to provide rapid, specific, and reliable molecular detection of C. fructicola, C. gloeosporioides, C. siamense, and C. cangyuanense, respectively. The data also provided a reference solution for the identification of species within Colletotrichum gloeosporioides species complex (CGSC), which share similar morphological characteristics. © 2022 Society of Chemical Industry.

Unravelling Species Diversity and Pathogenicity of Colletotrichum Associated with Anthracnose on Osmanthus fragrans in Quanjiao, China

Osmanthus fragrans is a popular ornamental tree species known for its fragrant flowers and is widely cultivated in Asia, Europe, and North America. Anthracnose is a disastrous threat to the growth and development of O. fragrans and has caused significant economic losses. To reveal the potential pathogen diversity of anthracnose, 127 isolates of Colletotrichum were isolated from the symptomatic leaves. Morphological studies and multilocus phylogenetic analyses with the concatenated sequences of the internal transcribed spacer, glyceraldehyde-3-phosphate dehydrogenase, chitin synthase, actin, beta-tubulin, calmodulin, and the intergenic region between Apn2 and Mat1-2-1, as well as a pairwise homoplasy index, test placed the causal fungi as two new species, Colletotrichum anhuiense (two isolates) and C. osmanthicola (12 isolates), and three known taxa, C. fructicola (18 isolates), C. gloeosporioides (62 isolates), and C. karstii (33 isolates). Among them, C. gloeosporioides was the most dominant, and C. anhuiense was occasionally discovered from the host tissues. Pathogenicity tests in vivo on O. fragrans leaves revealed a significant difference in virulence among these species. Of them, C. gloeosporioides, C. osmanthicola, and C. anhuiense were significantly more virulent than C. fructicola and C. karstii, while C. karstii was the least virulent. To our knowledge, this study was the first to report the pathogen diversity of anthracnose on O. fragrans.

First Report of Anthracnose Crown Rot on Strawberry (Fragaria × ananassa Duch.) Caused by Colletotrichum pandanicola in Yunnan Provence, China

Strawberry (Fragaria × ananassa Duch.), a widely grown octoploid species, is one of the most important economic fruit crops and has been widely cultivated in the world, including China. In December 2021, a serious crown rot disease (approximately 50% incidence) was observed in strawberry (cultivar Miaoxiang) plantations in Qujing City, Yunnan Province, China. Symptoms observed on aboveground part withered rapidly, reddish-brown marbled necrosis on crown. The roots were healthy and strong, but the plants finally died. To isolate the causal agent of this disease, crown tissues from five strawberry plants showing typical symptoms were cut into pieces of 5×5 mm, and the pieces were surface-sterilized with 75% ethanol for 45 s followed by 2.5% NaClO for 3 min and rinsed thrice with sterile water, and then placed onto potato dextrose agar (PDA) for 7 days at 25 ºC. After 3 to 4 days, extended single hyphal tips from the tissues were transferred to PDA and incubated for 7 days at 25 ºC. The colonies were initially white, later became somewhat zonate, velvety, cyan gray on the upper side and cyan ink pigment ring on the reverse side of plates, with concentric rings of salmon sporodochia. Many yellowish or orange creamy conidial droplets formed on PDA after 14 days at 25 ºC. Fifty-nine isolates were obtained, and three isolates QLYRR1, QLMCR9, and QLMCR39 were selected for further experiments. Conidia were hyaline, cylindrical with rounded ends, 12.17-19.35×3.71-6.30 μm (average±SD, 15.24±1.37×5.09±0.45 μm, n=150), L/W ratio = 2.99. The three isolates were molecularly identified using the genomic regions of internal transcribed spacer (ITS), actin (ACT), chitin synthase (CHS-1), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), and beta-tubulin (TUB2) genes, and the sequences were deposited in GenBank (accession nos. QLYRR1, QLMCR9, QLMCR39: ON668272, ON668256, ON668257[ITS], ON684302, ON684300, ON684301[ACT], ON684316, ON684314, ON684315[CHS-1], ON684292, ON684290, ON684291[GAPDH], ON684286, ON684284, ON684285[TUB2]). The phylogenetic analysis of experimental strains was performed by Maximum-likelihood (ML) tree and Bayesian inference (BI) method. Nucleotide sequences exhibited three isolates were clustered with the ex-type strain C. pandanicola strain MFLUCC 170571T found in Thailand, C. pandanicola strains (SAUCC201152, SAUCC200204) found in Shandong Province, and the holotype stain C. parvisporum YMF 1.06942T found in Guangxi Province, China. Morphologically, isolates were easily distinguished from C. parvisporum by the colony on PDA and the size of conidia (Yu et al. 2022). Morphological characteristics and phylogenetic analyses revealed that QLYRR1, QLMCR9, and QLMCR39 belong to C. pandanicola, the members of the C. gloeosporioides species complex (Tibpromma et al. 2018; Mu et al. 2021). Koch's postulates were tested by strawberry plants (two cultivars, Akihime and Miaoxiang) in vivo, strawberry plants were tested for the three isolates by spraying 1×106 conidia/mL suspension on three seedlings. Three seedlings sprayed with sterile distilled water were served as control. All of the plants were transferred to a glasshouse with a 28/20 °C day/night temperature range and natural sunlight. After 6 weeks, QLYRR1-, QLMCR9-, and QLMCR39-sprayed seedlings were stunted and developed typical wilt symptoms similar to those observed in the field with the incidence for 3, 3, and 3 seedlings, respectively. The negative control remained asymptomatic. The fungi were reisolated again from lesions of diseased plants and leaves with 100% frequency, and morphological characteristics and tested gene sequences were identical to the original isolates in this note, thus fulfilling Koch's postulates. C. pandanicola was described from the healthy leaves of Pandanus sp. and the lesion fruits of Juglans regia. To our knowledge, this is the first report confirming C. pandanicola causes anthracnose crown rot on strawberries in China. C. pandanicola has the potential for causing serious losses to the strawberry industry, and research is needed on management strategies to minimize losses.

Acrocalymmachuxiongense sp. nov., a new species of Acrocalymmaceae (Pleosporales) on leaves of Quercus

Background

In Huafo Mountain, Mouding, Yunnan Province, China, we found black protrusions on the leaf surface of Quercus plants. The collection which we identified as Acrocalymmachuxiongense sp. nov., a new species of Acrocalymmaceae (Pleosporales) is characterised by dome-shaped ascomata, bitunicate asci with pedicel furcate and an ocular chamber and hyaline, obovoid to ellipsoid, 1-septate ascospores.

New information

Morphologically, this species is typical with obovoid to ellipsoid, larger ascospores than other known species in Acrocalymma. Phylogenetic analysis also showed that it represents a distinct clade, distant to any other species of Acrocalymma. Therefore, we introduce it as Acrocalymmachuxiongense, a new species of Acrocalymmaceae. This study is adding to the current situation where there are very few species and lack of teleomorph characteristics.

Colletotrichum Species Associated with Anthracnose Disease of Watermelon (Citrullus lanatus) in China

Colletotrichum species are important plant pathogens, causing anthracnose in virtually every crop grown throughout the world. However, little is known about the species that infect watermelon. A total of 526 strains were isolated from diseased watermelon samples of eight major watermelon growing provinces in China. Phylogenetic analyses using seven loci (ITS, gadph, chs-1, his3, act, tub2, and gs) coupled with morphology of 146 representative isolates showed that they belonged to 12 known species of Colletotrichum, including C. aenigma, C. chlorophyti, C. fructicola, C. jiangxiense, C. karstii, C. magnum, C. nymphaeae, C. nigrum, C. orbiculare, C. plurivorum, C. sojae, and C. truncatum and three new species, here described as C. citrulli, C. kaifengense, and C. qilinense. Colletotrichum orbiculare was the dominant species. Pathogenicity tests revealed that all isolates of the species described above were pathogenic, with C. magnum and C. kaifengense being the most aggressive to leaves and fruits, respectively. This is the first report of C. aenigma, C. chlorophyti, C. fructicola, C. jiangxiense, C. nymphaeae, C. nigrum, C. plurivorum, and C. sojae on watermelon. These findings shed light on the Colletotrichum spp. involved in watermelon anthracnose and provide useful information for implementing effective control of watermelon anthracnose in China.

Colletotrichum Species Associated with Peaches in China

Colletotrichum is regarded as one of the 10 most important genera of plant pathogens in the world. It causes diseases in a wide range of economically important plants, including peaches. China is the largest producer of peaches in the world but little is known about the Colletotrichum spp. affecting the crop. In 2017 and 2018, a total of 286 Colletotrichum isolates were isolated from symptomatic fruit and leaves in 11 peach production provinces of China. Based on multilocus phylogenetic analyses (ITS, ACT, CAL, CHS-1, GAPDH, TUB2, and HIS3) and morphological characterization, the isolates were identified to be C. nymphaeae, C. fioriniae, and C. godetiae of the C. acutatum species complex, C. fructicola and C. siamense of the C. gloeosporioides species complex, C. karsti of the C. boninense species complex, and one newly identified species, C. folicola sp. nov. This study is the first report of C. karsti and C. godetiae in peaches, and the first report of C. nymphaeae, C. fioriniae, C. fructicola, and C. siamense in peaches in China. C. nymphaeae is the most prevalent species of Colletotrichum in peaches in China, which may be the result of fungicide selection. Pathogenicity tests revealed that all species found in this study were pathogenic on both the leaves and fruit of peaches, except for C. folicola, which only infected the leaves. The present study substantially improves our understanding of the causal agents of anthracnose on peaches in China.