This review collects information about the history of avocado and the economically important disease, avocado sunblotch, caused by the avocado sunblotch viroid (ASBVd). Sunblotch symptoms are variable, but the most common in fruits are irregular sunken areas of white, yellow, or reddish color. On severely affected fruits, the sunken areas may become necrotic. ASBVd (type species Avocado sunblotch viroid, family Avsunviroidae) replicates and accumulates in the chloroplast, and it is the smallest plant pathogen. This pathogen is a circular single-stranded RNA of 246–251 nucleotides. ASBVd has a restricted host range and only few plant species of the family Lauraceae have been confirmed experimentally as additional hosts. The most reliable method to detect ASBVd in the field is to identify symptomatic fruits, complemented in the laboratory with reliable and sensitive molecular techniques to identify infected but asymptomatic trees. This pathogen is widely distributed in most avocado-producing areas and causes significant reductions in yield and fruit quality. Infected asymptomatic trees play an important role in the epidemiology of this disease, and avocado nurseries need to be certified to ensure they provide pathogen-free avocado material. Although there is no cure for infected trees, sanitation practices may have a significant impact on avoiding the spread of this pathogen.
<span>La presente revisión tiene como objetivo abordar la evolución de los procedimientos para identificar los agentes causales de las cenicillas. Las características morfométricas que se descifran mediante la utilización de microscopía de luz y microscopía electrónica de barrido, así como el rango de hospedantes y herramientas moleculares han permitido la identificación del anamorfo en diferentes especies de Erysiphales, en diversas regiones del mundo. En Sinaloa, México, la identificación de este tipo de patógenos inició en 2005. Los estudios morfométricos del teleomorfo y anamorfo en calabaza y pepino permitieron la identificación de <em>Podosphaera xanthii</em>en estos hospedantes; el anamorfo del mismo hongo se identificó en melón, sandía, bule y tomatillo recurriendo a las mismas técnicas. En estudios subsiguientes, además de la morfometría se recurrió a los espaciadores transcritos internos (ITS; por su abreviatura en inglés) para la identificación de los anamorfos de <em>Erysiphe diffusa</em>, <em>Erysiphe quercicola </em>y <em>Podosphaera pannosa</em>. Las especies de Erysiphales conocidas a la fecha en Sinaloa son sólo un segmento de muchas de ellas que actualmente atacan a plantas cultivadas y silvestres; por lo que existe espacio para el surgimiento de líneas de investigación direccionadas hacia la etiología, epidemiología y el manejo de este tipo de enfermedades. </span>
Citrus anthracnose, caused by Colletotrichum spp., is a major disease in many citrus-growing regions of the world. During the spring of 2019, symptoms of petal necrosis and necrotic lesions on fruits were detected on Mexican lime (Citrus aurantifolia), sweet orange (Citrus sinensis), and grapefruit (Citrus paradisi) trees in three commercial orchards distributed in northern Sinaloa (El Fuerte and Ahome municipalities), Mexico. Colletotrichum-like colonies were consistently isolated on potato dextrose agar (PDA) medium from symptomatic petals and fruits, and 30 monoconidial isolates (10 per orchard) were obtained. Five isolates were selected as representative for morphological characterization, multilocus phylogenetic analysis, and pathogenicity tests. The isolates were designated as FAVF355–FAVF359 and were deposited in the Culture Collection of Phytopathogenic Fungi of the Faculty of Agronomy of El Fuerte Valley at the Autonomous University of Sinaloa (Mexico). Colonies grown on PDA at 25ºC were cottony, dense, with grayish white aerial mycelium and with pink conidial masses. Conidia (n= 100) were cylindrical, hyaline, aseptate, 13.7 to 18.8 × 4.3 to 5.8 μm, with both ends rounded. Based on morphological features, the five isolates were tentatively identified in the Colletotrichum gloeosporioides species complex (Weir et al. 2012). For molecular identification, total DNA was extracted, and the internal transcribed spacer (ITS) region (White et al. 1990), and partial sequences of actin (ACT), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), and β-tubulin (TUB2) genes were amplified by PCR (Weir et al. 2012), and sequenced. A phylogenetic tree based on Bayesian inference for species belonging to the C. gloeosporioides species complex was constructed. The multilocus phylogenetic analysis distinguished the isolates FAVF355–FAVF357 as C. gloeosporioides sensu stricto and the isolates FAVF358–FAVF359 as C. siamense. The sequences were deposited in GenBank (accession numbers ITS: MT850050–MT850054; ACT: MT834528–MT834532; GAPDH: MT855979–MT855982; TUB2: MT834533–MT834536). Pathogenicity of the five isolates was verified on healthy fruits of their original host species. Five fruits per isolate were inoculated using the colonized agar plug method. Fruits were wounded with a sterile toothpick and mycelial plugs (5 mm in diameter) removed from the margin of a 6-days-old culture were placed onto three wound sites in each fruit. Non-colonized agar plugs were placed on the wounds of 10 fruits used as the control. The fruits were kept in a moist chamber at 25°C for 8 days. The experiment was repeated twice. All inoculated fruits developed circular and necrotic lesions 6 days after inoculation, whereas the control fruits remained symptomless. The fungi were consistently re-isolated from the diseased fruits and were morphologically identical to that originally inoculated, fulfilling Koch´s postulates. To date, only C. gloeosporioides sensu lato and C. acutatum sensu lato has been associated with sweet orange and Mexican lime in Mexico (Farr and Rossman 2020), whereas C. gloeosporioides sensu stricto has been recently recorded in a different area (Iguala, Guerrero) of Mexico (Cruz-Lagunas et al. 2020). To our knowledge, this is the first report of C. gloeosporioides sensu stricto causing anthracnose on sweet orange, and of C. siamense on Mexican lime in Mexico, as well as C. gloeosporioides s. s. causing disease on grapefruit in Sinaloa, Mexico.
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