Duration of zoospore motility of pythium species in situ

Quaempts, Rex Matthew, 1962-

January 1987

Motile zoospores of P. dissotocum and P. catenulatum were added to 20 and 60 mesh silica sand and a sandy loam soil to investigate the duration of motility. Both Pythium species remained motile for up to 24 hours in all soil textures tested. However, the duration and percentage of the motile population varied depending upon the soil type and species tested. The duration of survival of motile and encysted zoospores of P. dissotocum and P. catenulatum in air dried and saturated sterile silica sand was also tested. P. dissotocum, under air dried conditions, did not survive while P. catenulatum was capable of surviving 4 and 16 days as motile and encysted zoospores, respectively. Both fungi could be recovered at high percentages after 5 weeks under saturated conditions. The survival structure is believed to be in the form of a zoospore cyst.

Pythium.

Zoospores.

Fungi -- Dispersal.

Physiology, enzyme production, and zoospore behavior of ba trachochytrium dendroba tidis, a chytrid pathogenic to amphibians /

Piotrowski, Jeffery Scott,

January 2002

Thesis (M.S.) in Botany and Plant Pathology--University of Maine, 2002. / Includes vita. Includes bibliographical references (leaves 67-72 ).

Physiology, Enzyme Production, and Zoospore Behavior of Balrachochytrium dendrobatidis, a Chytrid Pathogenic to Amphibians

Piotrowski, Jeffery Scott

January 2002

No description available.

Enzymes

Pathogenic microorganisms

Physiology

Zoospores

HOST AND SITE SPECIFICITY OF CHEMOTACTIC RESPONSES OF ZOOSPORES OF PYTHIUM SPECIES TO ROOTS AND ROOT CAP CELLS OF GOSSYPIUM BARBADENSE AND GOSSYPIUM HIRSUTUM

Goldberg, Natalie Pauline, 1960-

January 1987

Root cap cells of two cotton species elicited a specific chemotactic response in zoospores of Pythium dissotocum. When roots of cotton seedlings were placed into a suspension of P. dissotocum zoospores, there was immediate attraction, accumulation and encystment exclusively in the root cap cell region. Furthermore, root cap cells remained attractive when isolated from the root: attraction, accumulation, and encystment on individual root cap cells occurred within seconds after contact. Zoospores penetrated and killed isolated root cap cells within 15-30 minutes, and seedlings died within 24 hours. In contrast, zoospores of P. catenulatum, which exhibited a chemotactic response to roots of Bentgrass, were not attracted to and did not infect seedlings or isolated root cap cells of cotton. Preliminary studies indicate that both Pythium species are capable of infecting cotton seedlings in sand culture, though it is not known if either are pathogens on cotton grown in the field.

Cotton -- Roots -- Physiology.

Pythium -- Zoospores -- Toxicology.

Chemotaxis.

Viability and infective potential of Phytophthora pini zoospores in a recirculating irrigation system

Shay, Sarah D.

31 August 2012

Phytophthora pini Leonian, recently re-established from P. citricola I, is a pathogen with a wide range of forest and nursery hosts. It causes foliar infections in horticultural nurseries in Oregon, where recirculating irrigation systems are common. Increased use of recirculating irrigation systems may contribute to disease caused by waterborne plant pathogens. Simulated nursery chamber experiments were utilized to investigate the relationship between Phytophthora pini zoospore inoculum dose and disease on Rhododendron. Disease incidence in this system was unexpectedly low despite high inoculum levels tested, so further experiments under lab conditions were conducted to explore possible causes. Detached leaf assays were conducted to determine how inoculum dose, leaf wounding, and agitation of zoospore inoculum affected foliar infection of Rhododendron. Wounded and nonwounded leaves were dipped into suspensions of zoospores that were either untreated, mechanically agitated by vortexing to cause encystment, or pumped through an irrigation sprayer system. Disease severity (lesion area) and incidence (number of lesions per leaf area) were measured over seven days. At inoculum levels of ���10,000 propagules/mL, motile zoospores infected both wounded and nonwounded leaves. Vortexing or pumping resulted in zoospore encystment, and inoculation with these treatments caused disease almost exclusively on wounded leaves. No disease symptoms were observed following inoculation with any inocula at ��� 2,000 propagules/mL. Scanning electron microscopy of leaves inoculated with encysted propagules showed germinated cysts with hyphae growing over and around stomata without entering leaf tissue until reaching a wound site. Nonwounded leaves inoculated with motile spores showed stomata penetrated by hyphae. These findings indicate the importance of zoospore motility in reaching suitable infection sites, and demonstrate the impact of zoospore encystment on disease development. This has implications for disease management in nurseries where pruning wounds are common and the pumping of infested irrigation water may influence zoospore motility and infectivity. / Graduation date: 2013

Phytophthora

Phytophthora -- Spores

Rhododendrons -- Diseases and pests

Zoospores

Waterborne infection

Phytophthora nicotianae: ação de meios de cultura e da qualidade da luz no crescimento e esporulação e aspectos fisiológicos e bioquímicos da interação com porta-enxertos cítricos / Phytophthora nicotianae: action of culture media and light quality on growth and sporulation and physiological and biochemical aspects of the interaction with citrus rootstocks

Santos, Paulo Cézar das Mercês

03 November 2015

A citricultura brasileira apresenta números bastante significativos e expressivos, refletindo a grande importância social e econômica que essa atividade agrícola e industrial tem para a economia do país. O Brasil se destaca como o maior produtor de laranja do mundo. As plantas cítricas podem ser produzidas e multiplicadas de várias formas e a enxertia é a forma de propagação vegetativa mais utilizada comercialmente no Brasil. Dentre os porta-enxertos mais empregados, sobressaem-se o citrumeleiro Swingle e a tangerineira Sunki. Apesar das vantagens presentes nesses dois genótipos, a produção deles está sendo limitada por doenças causadas por fungos e estraminipilas. Em citros, as diversas espécies de Phytophthora são responsáveis pelas doenças gomose e podridões, principalmente de radicelas. P. nicotianae é a espécie que mais afeta as plantas cítricas no Brasil. Não obstante a grande importância de P. nicotianae para os porta-enxertos, alguns mecanismos de resistência ou susceptibilidade ainda requerem mais investigações cientificas. O presente trabalho visa a elucidação de alguns mecanismos de resistência dos citros a P. nicotianae, por meio de estudos fisiológicos e bioquímicos dos porta-enxertos, além da ação de meios de cultura e da qualidade da luz no estudo da fisiologia desse estraminipila. Para isso realizou-se a detecção de alguns equivalentes de compostos fenólicos através da técnica HPLC e o comportamento do genótipo resistente frente à possível inibição da síntese de compostos fenólicos através do tratamento das raízes do porta-enxerto Swingle com Pro-Ca; avaliou-se a atração de zoósporos de P. nicotianae por exsudatos radiculares provenientes dos dois porta-enxertos com o uso de uma armadilha adaptada; verificou-se o comportamento do zoósporo, a motilidade e a zoosporogênese frente à ação de vários compostos fenólicos e testou-se a ação de diferentes meios de culturas e da qualidade da luz no crescimento micelial e na esporulação de P. nicotianae. Os resultados revelaram que a tangerineira Sunki possui maiores quantidades de equivalentes em apigenina que o citrumeleiro Swingle nos dois períodos de avaliação, para o HPLC. O porta-enxerto resistente apresentou mais equivalentes de ácido clorogênico que o genótipo susceptível. Quanto ao Pro-Ca, os equivalentes de compostos fenólicos em raízes de plântulas do citrumeleiro Swingle não diferiram daquelas plantas tratadas com água. O Pro-Ca não inibiu e não desativou a síntese de compostos fenólicos. O uso do anticorpo contra a elicitina \"α-plurivorina\" teve resultados intermediários no consumo de água por plântulas de tangerineira Sunki e a atividade zoosporicida dos compostos fenólicos apresentou resultados variáveis no comportamento da motilidade de zoósporos. Os compostos fenólicos escopoletina e tricetinpentametoxi conseguiram paralisar a motilidade e proporcionaram as menores porcentagens de zoosporogênese. O meio de cultura AA permitiu a maior TCMD, seguido de CA e V8-CaCO3-Ágar. Os maiores valores de esporulação foram encontrados nesses dois últimos meios, respectivamente. Todas as faixas de luzes (e a ausência de luz) estudadas no presente trabalho podem ser avaliadas para o crescimento micelial, porém o tratamento claro foi aquele que mais induziu a esporulação de zoósporos de P. nicotianae. / The Brazilian citrus industry has very significant and expressive numbers, reflecting the great social and economic importance of this industrial and agricultural activity has for the economy. Brazil stands out as the world\'s largest orange producer. Citrus plants can be produced and multiplied in various ways and the bud is the form of vegetative propagation more commercially used in Brazil. Among the most commonly used rootstocks, stand up the Swingle citrumelo and Sunki mandarin. Despite the advantages these two genotypes present, their production is being limited by diseases caused by fungi and estraminipilas. In citrus, all species of Phytophthora are responsible for diseases gummosis and fibrous root rot, especially. P. nicotianae is the kind that affects citrus plants in Brazil. Regardless of the great importance of P. nicotianae for rootstocks, some mechanisms of resistance or susceptibility still require further scientific investigation. This study aims to elucidate some mechanisms of resistance of citrus to P. nicotianae, through physiological and biochemical studies of rootstocks, beyond of action culture media and quality of light in the physiological study of this estraminipila. To this was carried out to detect certain equivalent of phenolic compounds by HPLC and genotype resistant behavior against the possible inhibition of the synthesis of phenolic compounds by treatment of the roots of Swingle rootstock with Pro-Ca; evaluated the zoospores attraction P. nicotianae by exudates from the two rootstocks using an adapted trap; it was the zoospore behavior, motility and zoosporogenesis to the action of various phenolic compounds and tested the action of different culture media and quality of light on mycelial growth and sporulation of P. nicotianae. The results for HPLC revealed that Sunki mandarin has larger amounts of apigenin equivalents Swingle citrumelo in that the two periods. The sturdy rootstock had more chlorogenic acid equivalents of the susceptible genotype. As for the Pro-Ca equivalent of phenolic compounds in Swingle seedling roots not differ from those plants treated with water. The Pro-Ca not inhibited and not disabled the synthesis of phenolic compounds. The use of the antibody against elicitin \"α-plurivorin\" had intermediate results in water consumption by Sunki mandarin seedlings and zoosporicide activity of phenolic compounds showed variable results in the behavior of zoospore motility. The scopoletin and tricetinpentametoxi phenolic compounds managed to paralyze the motility and provided the smallest percentages of zoosporogenesis. The culture medium AA allowed greater DMGR, followed by CA and V8-CaCO3-Agar. The highest sporulation values were found in the last two media, respectively. All lights tracks (and the absence of light) studied in this work can be evaluated for mycelial growth, but the treatment light was that more induced sporulation of zoospores of P. nicotianae.

Armadilha

Atividade zoosporicida

Caracterização fisiológica

CLAE

Exsudatos radiculares

HPLC

Light quality

Mycelial growth rate

Physiological characterization

Qualidade da luz

Root exudates

TCMD

Zoospores

Zoospores trap

Zoosporicidal activity

Zoósporos

Phytophthora nicotianae: ação de meios de cultura e da qualidade da luz no crescimento e esporulação e aspectos fisiológicos e bioquímicos da interação com porta-enxertos cítricos / Phytophthora nicotianae: action of culture media and light quality on growth and sporulation and physiological and biochemical aspects of the interaction with citrus rootstocks

Paulo Cézar das Mercês Santos

03 November 2015

A citricultura brasileira apresenta números bastante significativos e expressivos, refletindo a grande importância social e econômica que essa atividade agrícola e industrial tem para a economia do país. O Brasil se destaca como o maior produtor de laranja do mundo. As plantas cítricas podem ser produzidas e multiplicadas de várias formas e a enxertia é a forma de propagação vegetativa mais utilizada comercialmente no Brasil. Dentre os porta-enxertos mais empregados, sobressaem-se o citrumeleiro Swingle e a tangerineira Sunki. Apesar das vantagens presentes nesses dois genótipos, a produção deles está sendo limitada por doenças causadas por fungos e estraminipilas. Em citros, as diversas espécies de Phytophthora são responsáveis pelas doenças gomose e podridões, principalmente de radicelas. P. nicotianae é a espécie que mais afeta as plantas cítricas no Brasil. Não obstante a grande importância de P. nicotianae para os porta-enxertos, alguns mecanismos de resistência ou susceptibilidade ainda requerem mais investigações cientificas. O presente trabalho visa a elucidação de alguns mecanismos de resistência dos citros a P. nicotianae, por meio de estudos fisiológicos e bioquímicos dos porta-enxertos, além da ação de meios de cultura e da qualidade da luz no estudo da fisiologia desse estraminipila. Para isso realizou-se a detecção de alguns equivalentes de compostos fenólicos através da técnica HPLC e o comportamento do genótipo resistente frente à possível inibição da síntese de compostos fenólicos através do tratamento das raízes do porta-enxerto Swingle com Pro-Ca; avaliou-se a atração de zoósporos de P. nicotianae por exsudatos radiculares provenientes dos dois porta-enxertos com o uso de uma armadilha adaptada; verificou-se o comportamento do zoósporo, a motilidade e a zoosporogênese frente à ação de vários compostos fenólicos e testou-se a ação de diferentes meios de culturas e da qualidade da luz no crescimento micelial e na esporulação de P. nicotianae. Os resultados revelaram que a tangerineira Sunki possui maiores quantidades de equivalentes em apigenina que o citrumeleiro Swingle nos dois períodos de avaliação, para o HPLC. O porta-enxerto resistente apresentou mais equivalentes de ácido clorogênico que o genótipo susceptível. Quanto ao Pro-Ca, os equivalentes de compostos fenólicos em raízes de plântulas do citrumeleiro Swingle não diferiram daquelas plantas tratadas com água. O Pro-Ca não inibiu e não desativou a síntese de compostos fenólicos. O uso do anticorpo contra a elicitina \"α-plurivorina\" teve resultados intermediários no consumo de água por plântulas de tangerineira Sunki e a atividade zoosporicida dos compostos fenólicos apresentou resultados variáveis no comportamento da motilidade de zoósporos. Os compostos fenólicos escopoletina e tricetinpentametoxi conseguiram paralisar a motilidade e proporcionaram as menores porcentagens de zoosporogênese. O meio de cultura AA permitiu a maior TCMD, seguido de CA e V8-CaCO3-Ágar. Os maiores valores de esporulação foram encontrados nesses dois últimos meios, respectivamente. Todas as faixas de luzes (e a ausência de luz) estudadas no presente trabalho podem ser avaliadas para o crescimento micelial, porém o tratamento claro foi aquele que mais induziu a esporulação de zoósporos de P. nicotianae. / The Brazilian citrus industry has very significant and expressive numbers, reflecting the great social and economic importance of this industrial and agricultural activity has for the economy. Brazil stands out as the world\'s largest orange producer. Citrus plants can be produced and multiplied in various ways and the bud is the form of vegetative propagation more commercially used in Brazil. Among the most commonly used rootstocks, stand up the Swingle citrumelo and Sunki mandarin. Despite the advantages these two genotypes present, their production is being limited by diseases caused by fungi and estraminipilas. In citrus, all species of Phytophthora are responsible for diseases gummosis and fibrous root rot, especially. P. nicotianae is the kind that affects citrus plants in Brazil. Regardless of the great importance of P. nicotianae for rootstocks, some mechanisms of resistance or susceptibility still require further scientific investigation. This study aims to elucidate some mechanisms of resistance of citrus to P. nicotianae, through physiological and biochemical studies of rootstocks, beyond of action culture media and quality of light in the physiological study of this estraminipila. To this was carried out to detect certain equivalent of phenolic compounds by HPLC and genotype resistant behavior against the possible inhibition of the synthesis of phenolic compounds by treatment of the roots of Swingle rootstock with Pro-Ca; evaluated the zoospores attraction P. nicotianae by exudates from the two rootstocks using an adapted trap; it was the zoospore behavior, motility and zoosporogenesis to the action of various phenolic compounds and tested the action of different culture media and quality of light on mycelial growth and sporulation of P. nicotianae. The results for HPLC revealed that Sunki mandarin has larger amounts of apigenin equivalents Swingle citrumelo in that the two periods. The sturdy rootstock had more chlorogenic acid equivalents of the susceptible genotype. As for the Pro-Ca equivalent of phenolic compounds in Swingle seedling roots not differ from those plants treated with water. The Pro-Ca not inhibited and not disabled the synthesis of phenolic compounds. The use of the antibody against elicitin \"α-plurivorin\" had intermediate results in water consumption by Sunki mandarin seedlings and zoosporicide activity of phenolic compounds showed variable results in the behavior of zoospore motility. The scopoletin and tricetinpentametoxi phenolic compounds managed to paralyze the motility and provided the smallest percentages of zoosporogenesis. The culture medium AA allowed greater DMGR, followed by CA and V8-CaCO3-Agar. The highest sporulation values were found in the last two media, respectively. All lights tracks (and the absence of light) studied in this work can be evaluated for mycelial growth, but the treatment light was that more induced sporulation of zoospores of P. nicotianae.

Armadilha

Atividade zoosporicida

Caracterização fisiológica

CLAE

Exsudatos radiculares

Qualidade da luz

TCMD

Zoósporos

HPLC

Light quality

Mycelial growth rate

Physiological characterization

Root exudates

Zoospores

Zoospores trap

Zoosporicidal activity

Rôles des modifications de la microflore bactérienne et de l'exudation racinaire de la tomate par la symbiose mycorhizienne dans le biocontrôle sur le Phytophthora nicotianae

Lioussanne, Laetitia

January 2007

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Glomus mosseae

G. intraradices

Zoospores

Chémotaxie

Exsudats racinaires

DGGE

Endobactéries

Mycorhizosphère

Agents pathogènes du sol

Rôles des modifications de la microflore bactérienne et de l'exudation racinaire de la tomate par la symbiose mycorhizienne dans le biocontrôle sur le Phytophthora nicotianae

Lioussanne, Laetitia

January 2007

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Glomus mosseae

G. intraradices

Zoospores

Chémotaxie

Exsudats racinaires

DGGE

Endobactéries

Mycorhizosphère

Agents pathogènes du sol

Molecular Detection and Quantification of the Fish Pathogen <i>Saprolegnia</i> spp. Using qPCR and Loop Mediated Isothermal Amplification

Ghosh, Satyaki

03 December 2019

No description available.

Biology

Oomycetes

Saprolegnia

zoospores

PCR

qPCR

LAMP

Copper Sulfate

PAA

Aquaculture

ITS

COI