Anthracnose of Nemesia strumosa Caused by Colletotrichum fuscum

Severe wilt with spots and/or leaf and stem blight were found on a scrophulariaceous flowering plant, Nemesia strumosa, grown in Kagawa Prefecture, Japan, in February 1999. Wilted plants had numerous lesions and died early. A mitosporic fungus isolated repeatedly from the diseased plants was identified as Colletotrichum fuscum and was demonstrated to cause the disease. N. strumosa is a new host for C. fuscum, which has been known to attack foxglove (Digitalis spp.). The present disease was named “anthracnose of N. strumosa” as a new disease. Received 10 October 2000/ Accepted in revised form 11 January 2001     

Ray speck of chrysanthemum caused by <Emphasis Type="Italic">Stemphylium lycopersici</Emphasis> in Japan

A new disease of chrysanthemum causing ray speck was found in Okinoerabu island, Kagoshima, Japan in March 2006. Small reddish-brown lesions were observed on the ray florets of the chrysanthemum (cv. Anastasia). The causal fungus was exclusively isolated from the lesions, and typical symptoms were reproduced after inoculation with the isolate. The causal fungus was identified as Stemphylium lycopersici (Enjoji) Yamamoto based on morphology and the sequences of rDNA-ITS and the gpd gene regions. The name, “sho-hanten-byo”, in Japanese is proposed for this ray speck disease.     

Sooty spot of kiwifruit caused by Pseudocercospora actinidiae Deighton

Leaf spots on the lower leaf surface and sunken spots on the fruit of kiwifruit (Actinidia deliciosa and A. chinensis) were found in Fukuoka Prefecture, Japan. The observed fungus was identified as Pseudocercospora actinidiae Deighton. We propose the name sooty spot of kiwifruit (“susuhan-byo” in Japanese) as a new disease fullfilling Koch’s postulates.     

Stem and root rot of scarlet runner bean (Phaseolus coccineus) caused by Pythium myriotylum

A severe rot was found on the stems and roots of scarlet runner bean (Phaseolus coccineus) in Ibaraki Prefecture (Japan) in August 2004. The causal fungus was identified as Pythium myriotylum. We propose the name of stem and root rot of scarlet runner bean (“Kuki-negusare-byo” in Japanese) for this new disease.     

First report of whisker mold,a postharvest disease on citrus caused by <Emphasis Type="Italic">Penicillium ulaiense</Emphasis> (in Japan)

In March 2006, stored fruits of the medium-to-late-ripening citrus variety Shiranuhi ([Citrus unshiu × C. sinensis] × C. reticulata) were found to have a disease similar to blue mold. The fungus causing this disease differed distinctly from the well-known, blue mold agent, Penicillium italicum, because it formed whisker-like coremia measuring 1–8 mm. On the basis of the morphological characteristics and the phylogenetic analysis based on the nucleotide sequence of the β-tubulin gene, the fungus was identified as P. ulaiense. This is the first report of citrus whisker mold caused by P. ulaiense in Japan.     

Dumontinia root rot of liver leaf caused by <Emphasis Type="Italic">Dumontinia tuberosa</Emphasis>

Foliar wilt as well as crown and root rot with sclerotia formation has affected potted liver leaf (Hepatica nobilis var. japonica f. magna) in Ojiya, Niigata Prefecture, Japan, since 2006. Apothecia developed from the sclerotia on soil surface of pots with the diseased plants in March. A fungus forming the apothecia was identified as Dumontinia tuberosa (Sclerotiniaceae) based on its morphology and demonstrated to cause the disease. We coined the name “Dumontinia root rot (Dumontinia-negusare-byo in Japanese) of liver leaf” for the new disease.     

First report of celery stunt anthracnose caused by <Emphasis Type="Italic">Colletotrichum simmondsii</Emphasis> in Japan

A new disease was found in Japan, on celery (Apium graveolens var. dulce) having severe chlorotic leaf spot, stunt, and dwarf with leaf curl. A spore suspension from the fungus isolated from affected plants induced identical symptoms 14 days after plants were sprayed. Identification and molecular characterization showed that the causal agent is Colletotrichum simmondsii. This report is the first of stunt anthracnose on celery caused by C. simmondsii. We propose the name “stunt anthracnose” for the new disease. Colletotrichum acutatum sensu lato, as reference pathogen of celery anthracnose, should be changed to C. fioriniae based on morphological and molecular characteristics.     

Fusarium root rot of prairie gentian caused by a species belonging to the <Emphasis Type="Italic">Fusarium solani</Emphasis> species complex

Rotting of roots and stem bases and wilting of entire plants were found on a gentianaceous flowering plant, prairie gentian (Eustoma grandiflorum), grown in Kagawa Prefecture in the southwest region of Japan in April 2001. A mitosporic fungus, isolated repeatedly from the diseased plants, was identified as a species belonging to the clade 3 of Fusarium solani species complex based on the morphology and the sequence of the translation elongation factor gene. It was demonstrated to cause the disease by inoculating potted plants and reisolating the fungus from the diseased plants. We propose the name “Fusarium root rot of prairie gentian” for this disease.     

Pathogen and disease characteristics of marigold black spot in Beijing and surrounding areas

Annual epidemics of black spot, a serious disease of marigold (Tagetes erecta), developed in Beijing and surrounding areas from 2011 to 2015. Alternaria tagetica was isolated from marigold showing symptoms from Beijing and Hebei province, and pathogen characteristics and meteorological factors influencing disease development were investigated. The optimum growth temperature of the fungus was 20–25 °C. Field experiments conducted from 2011 to 2014 to evaluate diseased residual branches indicated that marigold residues from the previous year are a likely source of primary inoculum. Regression analysis showed that temperature and precipitation were explanatory factors for disease development from 2013 to 2015. Structural equation modelling indicated that the contributions of temperature degree-day and rainfall to disease intensity were 27% and 30%, respectively. Augmented Dickey–Fuller test results indicated stability in the residual sequence and co-integration between the variables daily average temperature, daily average precipitation, daily average humidity and daily disease intensity. Error-correction modelling showed that temperature, lagged order of temperature, precipitation, lagged order of precipitation, lagged order of disease intensity and the error term were significant. Research indicated that A. tagetica was the primary pathogen of marigold black spot, and that crop rotation could play a useful role in management of the disease, whilst increased rainfall and reduced temperature provide superior conditions for disease spread and infection. There is potential for the results of this study to be used by municipal agriculture authorities in the prediction of marigold black spot in Beijing.     

Black Streak of Edible Burdock Caused by Itersonilia perplexans in Japan

Black streak disease of edible burdock (Arctium lappa L.) has been observed periodically in Hokkaido Prefecture, Japan since 1988. Symptoms appeared initially as small, dark brown to black spots on the leaf veins and petioles. The necrotic spots developed longitudinally along the leaf veins or petioles. Diseased leaf veins or petioles occasionally snapped off at the necrotic lesions. An Itersonilia sp. was isolated from rotting leaf veins and petioles. Laboratory inoculations of edible burdock seedlings using ballistospore suspensions produced typical symptoms observed in nature. The fungus had a feathery mycelium and developed a white to pale cream colony color. The mycelium was composed primarily of branched hyphae with clamp connections at the septa. Ballistospores, formed at the apex of inflated cells, were lunate, ovoid to pyriform. The fungus occasionally produced appressoria, chlamydospores and yeast cells. Based on the morphological characteristics, the causal agent was identified as Itersonilia perplexans Derx. Edible burdock strains were also pathogenic to chrysanthemum and caused petal blight. This report is the first of a foliar disease of edible burdock caused by I. perplexans in Japan. Received 8 April 2002/ Accepted in revised form 26 June 2002     

Foot Rot of Ulluco Caused by Pythium aphanidermatum

Severe rot of stem bases caused by Pythium aphanidermatum was found on ulluco (Ullucus tuberosus) grown in Kagawa Prefecture, Japan, in September 1999. The name “foot rot of ulluco” is proposed for this new disease. Received 14 November 2001/ Accepted in revised form 7 January 2002     

White rust of <Emphasis Type="Italic">Ipomoea</Emphasis> caused by <Emphasis Type="Italic">Albugo ipomoeae-panduratae</Emphasis> and <Emphasis Type="Italic">A. ipomoeae-hardwickii</Emphasis> and their host specificity

In some areas of Japan, yellow spots with white pustules on leaves, stems, petioles, peduncles and calyces were found on Ipomoea nil, I. triloba, I. lacunosa and I. hederacea var. integriuscula. We demonstrated that the diseases on I. nil, I. triloba and I. lacunosa were caused by host-specific strains of Albugo ipomoeae-panduratae and defined three forma speciales of the fungus, respectively, for the three Ipomoea species: “f. sp. nile”, “f. sp. trilobae” and “f. sp. lacunosae”. Because the diseases were new to Japan, we coined the Japanese name “shirosabi-byo”, which means white rust. We also showed that the disease on I. hederacea var. integriuscula was caused by A. ipomoeae-hardwickii. We named this new disease “white rust (shirosabi-byo in Japanese)”.     

Monilia mumecola, a new brown rot fungus on Prunus mume in Japan

In 1982, an anamorphic fungus in the genus Monilia was first isolated as the causal agent of brown rot disease of Japanese apricot or mume (Prunus mume) in Oita Prefecture, Kyushu, Japan. Inoculation of flowers, shoots, and fruit of P. mume with the fungus reproduced brown rot disease symptoms similar to those found in nature. The fungus somewhat resembled the colony appearance of Monilinia (anamorph Monilia) laxa, the apricot brown rot fungus, on PSA plates, but it differed from the latter and the other two brown rot fungi, M. fructigena and M. fructicola, in terms of growth rate, temperature optima for mycelial growth and sporulation, morphology and germination pattern of conidia, nuclear number in the conidium, and nucleotide sequences in the ITS region of ribosomal DNA. It is newly described as Monilia mumecola Y. Harada, Y. Sasaki & T. Sano. A key to anamorphic states of four brown rot fungi of fruit trees is provided.     

Black leaf spot and circular leaf spot of <Emphasis Type="Italic">Farfugium japonicum</Emphasis> (L.) Kitamura caused by <Emphasis Type="Italic">Phoma</Emphasis> spp.

In May 1998 and 1999, two types of leaf spot (black type and brown type) caused by Phoma spp. were found on Farfugium japonicum in Tokyo and in Gunma Prefecture, Japan. The fungus isolated from black-type lesions caused only black-type lesions, and the fungus from brown-type lesions caused only brown-type lesions. We propose to name these diseases black leaf spot of F. japonicum (kokuhan-byo in Japanese) for the disease with black lesions and circular leaf spot of F. japonicum (rinmon-byo in Japanese) for the disease with brown lesions. This is the first report on leaf diseases of F. japonicum caused by Phoma spp.     

Rhizopus Rot of Mulberry-grafted Saplings Caused by Rhizopus oryzae

A new disease on stocks of mulberry-grafted saplings was found in Tsukuba in 1999. A representative isolate of the Rhizopus species that was consistently isolated from rotted tissues was pathogenic to healthy mulberry stocks. The causal fungus was identified morphologically as Rhizopus oryzae Went & Prinsen Geerligs. Rhizopus rot (“Naefuhaibyou” in Japanese) was proposed for the name of the disease. This is the first report on a mulberry disease caused by R. oryzae. Received 30 March 2001/ Accepted in revised form 4 June2001     

First report of rust disease on ohia and the causal fungus, <Emphasis Type="Italic">Puccinia psidii</Emphasis>, in Japan

In 2007, a rust disease of ohia (Metrosideros polymorpha) was found in Japan. We identified this pathogen as Puccinia psidii based on its morphological characters and the internal transcribed spacer (ITS) sequence of the ribosomal DNA. This pathogen was pathogenic on Eucalyptus amplifolia and E. rudis in addition to previously reported host species. This is the first report in Japan of a rust disease on ohia and the occurrence of its causal fungus, P. psidii.     

Leaf Smut of <Emphasis Type="Italic">Sagittaria latifolia </Emphasis>Caused by <Emphasis Type="Italic">Doassansia horiana</Emphasis>

A smut-like disease was found on the leaves of Sagittaria latifolia in Japan. Spore balls collected from the leaves of S. latifolia and S. trifolia var. edulis were used to cross-inoculate leaves of pathogen-free plants of the two species to identify the pathogen. Spots and swellings formed on leaves of the two species 10 days after inoculation. These symptoms were quite similar to those of the leaf smut disease of S. trifolia var. edulis caused by Doassansia horiana, and the spore balls were characteristic of the fungus. Therefore, the authors conclude that D. horiana caused leaf smut disease on S. latifolia. Received 18 January 2000/ Accepted in revised form 14 May 2000     

Powdery Mildew of Prairie Gentian: Characteristics,Molecular Phylogeny and Pathogenicity

In March 1999, we found prairie gentian (Eustoma grandiflorum) infected with powdery mildew in a greenhouse in Oita Prefecture, Japan. Morphological observation revealed that the causal fungus belongs to the mitosporic genus Oidium subgenus Pseudoidium [teleomorph: Erysiphe sensu Braun and Takamatsu (2000)]. Precise taxonomic position of the fungus, however, is uncertain due to lack of the perfect stage. We determined the nucleotide sequence of the rDNA ITS region of the fungus. Comparison of the sequence with those obtained from DNA databases of this fungal group revealed that the sequence is identical to those of powdery mildews from garden four-o'clock (Mirabilis jalapa) and broad bean (Vicia faba). Inoculation of an isolate from garden four-o'clock caused mildew on prairie gentian and broad bean, suggesting that the prairie gentian mildew originates from garden four-o'clock or broad bean. Molecular phylogenetic analysis indicated a close relationship of this fungus to Erysiphe baeumleri on Vicia spp. and E. trifolii on Trifolium pratense. From these results, we propose that prairie gentian mildew diverged from a Fabaceae-parasitic ancestor. Received 14 March 2002/ Accepted in revised form 28 May 2002     

Black Spot of Peach Caused by <Emphasis Type="Italic">Alternaria alternata</Emphasis> (Fr.) Keissler

A new disease of peach (Prunus persica Batsch var. vulgaris Maxim.), causing brown, sunken lesions and brownish to blackish brown spots with cracks on peach fruits, was found in Okayama prefecture, Japan, in 1995. The disease was observed not only on peach fruits but also on twigs and leaves. An Alternaria sp. was consistently isolated from these diseased fruits, twigs and leaves. The isolates were pathogenic to peach fruits and leaves. Based on the morphological characteristics, the causal fungus was identified as Alternaria alternata (Fr.) Keissler. After cross-inoculation with isolates from peach, Japanese pear and apple, the isolates were found to be pathogenic only to their original host. This is the first report on a peach disease caused by a host-specific A. alternata; therefore, the common name of black spot (`Kokuhanbyo' in Japanese) was proposed. Received 25 June 1999/ Accepted in revised form 12 October 1999     

White root rot disease of the lacquer tree <Emphasis Type="Italic">Toxicodendron vernicifluum</Emphasis> caused by <Emphasis Type="Italic">Rosellinia necatrix</Emphasis>

In early August 2010, lacquer trees (Toxicodendron vernicifluum) severely damaged by a root rot disease were found on plantations in Iwate, Japan. The causal agent was a fungus identified as Rosellinia necatrix, based on morphology and the sequence of the ribosomal DNA internal transcribed spacer region. The fungus was clearly pathogenic on T. vernicifluum root plantings. This report is the first of white root rot on T. vernicifluum.