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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
221

Host-status and host-sensitivity of hybrid sorghum-Sudan grass to tropical meloidogyne species and races and infection of the nematode-susceptible sweet potato from residual soil nematodes

Selapa, Vision Tabi January 2021 (has links)
Thesis (M. Sc. (Plant Protection)) -- University of Limpopo, 2021 / Worldwide, root-knot (Meloidogyne species) nematodes are considered to be the most important and damaging genus in crop husbandry. The existence of a wide host range, over 2000 plants, and several biological races, makes the management of this nematode genus difficult with nematode-resistant crop Hybrid Sorghum Sudan grass (Sorghum bicolor × Sorghum Sundanese) has been classified as being resistant to certain Meloidogyne species and races, with a wide range of uses in crop rotation intended to manage nematode population densities. However, due to the ability of nematodes to enter chemiobiosis when gradually exposed to chemicals, this hybrid might not be effective in managing nematode population densities for the subsequent highly susceptible sweet potato (Ipomoea batatas L.) cultivars. The objective of the study was to determine whether hybrid Sorghum-Sudan grass would suppress M. javanica (Trial 1), M. incognita race 2 (Trial 2) and M. incognita race 4 (Trial 3) population densities, allowing a nematode susceptible sweet potato cv. ′Beauregard′ as successor crop to be cultivated without suffering nematode damage. The hybrid Sorghum-Sudan grass study was conducted under greenhouse conditions, with seven inoculation levels, namely, 0; 5; 25; 125; 625; 3 125 and 15 625 eggs and second-stage juveniles (J2) of each nematode species or race, arranged in randomised complete block design, with six replications and validated in time. Plant growth, foliar nutrient elements and nematodes were collected at 56 days after inoculation and prepared for analysis using standard methods. The reproductive factor (RF) at all levels was zero, whereas nematode inoculation at all levels did not have any effect on plant growth of the hybrid Sorghum-Sudan grass. However, the nematode levels affected the accumulation of nutrient elements and the quality of forage. After cultivating the susceptible sweet potato cultivar in pots xxx previously with hybrid Sorghum-Sudan grass at increasing levels of M. javanica alone, that is in Trial 1, similar results were observed with respect to RF and lack of nematode damage to plant growth. Consequently, the hybrid was suitable for use in crop rotation with sweet potato for the purpose of managing nematode population densities of thermophilic Meloidogyne species and/or races. / National Research Foundation of South Africa (NRF) and the Agricultural Research Council (ARC)
222

Effective control of neem (Azadirachta indica A. Juss) cake to plant parasitic nematodes and fungi in black pepper diseases in vitro / Tác động của bánh dầu neem (Azadirachta indica A. Juss) lên tuyến trùng và nấm bệnh ký sinh cây hồ tiêu ở điều kiện in vitro

Duong, Duc Hieu, Ngo, Xuan Quang, Do, Dang Giap, Le, Thi Anh Hong, Nguyen, Vu Thanh, Smol, Nic 09 December 2015 (has links) (PDF)
Neem cake is a product of the cold pressing from the neem kernels to obtain neem oil. Bio-active substances from neem cake extracted solutions were evaluated for their potential to control the root knot nematodes and other pests of plants. In this study different concentrations of the solution extracted from neem cake was tested against the second stage juveniles of the plant parasitic nematode Meloidogyne spp. and four phytopathogenic fungi: Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytopthora capsici. Toxicity of neem cake extractions is represented by the EC50 value for the second-stage juvenile (J2) of Meloidogyne spp. and the four phytopathogenic fungi via Probit analysis. A 5% dilution of the solvent extracting from neem cake already caused 100% larval mortality after 24 hours exposure. Undiluted neem cake extraction effectively inhibited the growth of the four phytopathogenic fungi. The EC50 value of neem cake on J2-larvae of Meloidogyne nematode and on the fungi Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytophthora capsici was 0.51, 0.74, 0.30, 0.51 and 4.33%, respectively. / Bánh dầu neem là sản phẩm của quá trình ép nhân hạt neem để lấy dầu. Các hoạt chất sinh học từ dịch chiết bánh dầu neem đã được đánh giá có tiềm năng lớn trong phòng trừ tuyến trùng nốt sưng và các loài dịch hại khác của nhiều loại cây trồng. Trong nghiên cứu này các nồng độ dịch chiết khác nhau của bánh dầu neem đã được thử nghiệm khả năng diệt tuyến trùng (ấu trùng tuổi 2 thuộc giống Meloidogyne spp.) và ức chế 4 loài nấm bệnh như: Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. và Phytopthora capsici. Độc tính của dịch chiết bánh dầu neem được biểu diễn bởi giá trị EC50 đối với ấu trùng tuổi 2 của tuyến trùng Meloidogyne spp. và các loài nấm bệnh thông qua phân tích Probit. Dịch chiết bánh dầu neem ở nồng độ 5% đã làm chết 100% cá thể IJ2 của Meloidogyne spp sau 24 giờ phơi nhiễm. Dịch nguyên chất bánh dầu neem ức chế cả 4 loài nấm bệnh. Giá trị EC50 của bánh dầu neem lên ấu trùng tuổi 2 của Meloidogyne spp và các loài nấm bệnh Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytophthora capsici tương ứng là 0.51, 0.74, 0.30, 0.51 và 4.33%.
223

Purificação parcial de frações de Saccharomyces cerevisiae indutoras de resitência contra antracnose e avaliação de agentes bióticos (S. cerevisiae e Agro-Mos®) e abiótico (Bion®) na indução de resistência contra inseto (Tuta absoluta x tomateiro), nematóide (Meloidogyne incognita x pepineiro e organismo não alvo (Bradyrhizobium elkanii x soja) / Partial purification of fractions of Saccharomyces cerevisiae inducing resistance in cucumber plants against anthracnose and evaluation of biotic (S. cerevisiae and Agro-Mos®) and biotic (Bion®) agents in the resistance induction against insect (Tuta absoluta x tomato plants), nematode (Meloidogyne incognita x cucumber plants) and non-target organism (Bradyrhizobium elkanii x soybean plants)

Zanardo, Nivea Maria Tonucci 27 August 2009 (has links)
Na indução de resistência a planta possui mecanismos de defesa físicos e químicos para impedir a entrada e o desenvolvimento de patógenos e parasitas, incluindo fungos, bactérias, vírus, nematóides e até insetos. Estes mecanismos são ativados por infecções prévias ou pelo tratamento com agentes indutores (eliciadores) bióticos ou abióticos. Entre os agentes indutores bióticos, destaca-se a S. cerevisiae, que além da importância biotecnológica, tem demonstrado em estudos prévios potencial para o controle de doenças em várias plantas de importância econômica. Produtos à base de S. cerevisiae, como por exemplo o Agro-Mos® (carboidratos da parede celular da levedura) estão disponíveis no mercado, mas não como indutores de resistência. Já o indutor químico registrado como Bion® vem sendo comercializado e utilizado na indução de resistência em diversas espécies de plantas contra vários patógenos. Os objetivos deste trabalho foram purificar parcialmente frações de S. cerevisiae indutoras de resistência em pepineiro contra antracnose, causada por Colletotrichum lagenarium, e avaliar o efeito do extrato bruto autoclavado de S. cerevisiae, Agro-Mos® e Bion® na indução de resistência contra o inseto T. absoluta em tomateiro, o nematóide M. incognita em pepineiro, como também, verificar o efeito destes agentes na interação simbiótica entre soja e B. elkanii. Os resultados mostraram que o extrato bruto aquoso de S. cerevisiae autoclavado por 4 h foi o mais efetivo na redução da antracnose. Dessa maneira, o mesmo foi submetido à precipitação etanólica e o sobrenadante da precipitação foi fracionado utilizando-se Cromatografia de Troca Aniônica - CTA. Obtiveram-se quatro picos, sendo que os picos I (frações não ligada à resina DEAE-celulose) e II (frações ligadas à resina DEAE-celulose) foram os mais efetivos na proteção de plântulas de pepineiro reduzindo a severidade de antracnose em 80% e 72%, respectivamente. A aplicação foliar do extrato bruto aquoso de S. cerevisiae, Agro-Mos® e Bion® não afetou o desenvolvimento do inseto em tomateiro, como também, não interferiu significativamente na multiplicação do nematóide em raízes de pepineiro. Na interação simbiótica da soja com B. elkanii, os agentes testados não afetaram a nodulação por B. elkanii em raízes e o desenvolvimento vegetativo das plantas. Porém, a aplicação foliar do extrato bruto autoclavado de S. cerevisiae aumentou a quantidade de nitrogênio total da parte aérea das plantas. Finalmente, conclui-se que frações de S. cerevisiae induziram resistência em pepineiro contra C. lagenarium. Por sua vez, os agentes testados são foram eficientes no controle do inseto herbívoro e do nematóide e não demonstraram efeito negativo na interação soja - rizóbio. / In the resistance induction, the plant has physical and chemical defense mechanisms to avoid the entrance and the development of pathogens and parasites, including fungi, bacteria, virus, nematodes and even insects. These mechanisms are activated by previous infections or by the treatment with biotic and abiotic inducer agents. Among the biotic agents there is S. cerevisiae, that besides the biotechnological importance, was shown in previous studies to control diseases in several plants of economical importance. Products made of S. cerevisiae, as for exemple, the Agro-Mos® (formulated with carbohydrates from the cellular wall of the yeast) are available in the market, but not resistance inducers. The chemical inducer known as Bion® is already marketed and used to induced resistance in several plant species against several pathogens. The objectives of this work were to partially purify fractions of S. cerevisiae able to induce resistance in cucumber against anthracnose, caused by Colletotrichum lagenarium, and also evaluate the effect of the autoclaved crude aqueous extract from S. cerevisiae, Agro-Mos® and Bion® in the resistance induction against the insect T. absoluta in tomato plants, the nematode M. incognita in cucumber plants, as well as to verify the effect of the agents in the symbiotic interaction envolving soybean and B. elkanii. The results showed that the crude aqueous extract of S. cerevisiae autoclaved for 4 h was the most effective out in the reduction of cucumber anthracnose. Thus, the same extract was submitted to ethanolic precipitation and the obtained supernatant was fractioned by using Anion Exchange Chromatography - AEC. For peaks were obtained and peak I (non-adsorbed fraction to DEAE-Cellulose) and II (fraction adsorbed to DEAE-Cellulose) were the most effective out in the protection of the cucumber seedling by reducing anthracnose severity in 81% and 72% ,respectively. The application of the autoclaved extract of S. cerevisiae, Agro-Mos® and Bion® did not affect the development of the insect in tomato plants as well as did not interfere significantly in the multiplication of the nematode in cucumber roots. In the symbiotic interaction of soybean and B. elkanii, the tested agents did not affect the formation of nodules in soybean roots and the vegetative development of the plants. However, the foliar application of the autoclaved crude extract of S. cerevisiae significantly increased the amount of total nitrogen in the aerial part of the plants. Finally, it is concluded that the fractions (peaks I and II) of S. cerevisiae induced resistance of the cucumber plants. However the tested agents were not efficient in the control of the herbivore insect and the nematode and did not exhibit negative effects in the symbiotic interaction soybean and rhizobium.
224

Fitonematóides associados a zingiberales ornamentais em Pernambuco : estimativa do número de amostras para monitoramento, efeito de indutores de resistência e avaliação de mecanismos envolvidos

ASSIS, Tereza Cristina de 23 February 2006 (has links)
Submitted by (lucia.rodrigues@ufrpe.br) on 2017-03-27T15:29:57Z No. of bitstreams: 1 Tereza Cristina de Assis.pdf: 813581 bytes, checksum: 8b96b058018eb3373d6a748191e4e45c (MD5) / Made available in DSpace on 2017-03-27T15:29:57Z (GMT). No. of bitstreams: 1 Tereza Cristina de Assis.pdf: 813581 bytes, checksum: 8b96b058018eb3373d6a748191e4e45c (MD5) Previous issue date: 2006-02-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The expressive increase in production of tropical flowers in Pernambuco indicates the State rising interest in ornamentals. This study had the objectives of: 1) screening plant parasitic nematodes in Zingiberales (Etlingera elatior, Zingiber spectabilis, Alpinia purpurata, Musa coccinea, Tapeinoquilos ananassae e Heliconia spp.) producing areas of Pernambuco, 2) predicting number of samples for nematodes monitoring at different acceptable error levels, 3) studying the effect of resistance abiotic inductors on nematode comunity associated with plant roots and soil, 4) evaluating enzymes activity in E. elatior, and 5) evaluating enzymes production in A. purpurata infected with Meloidogyne incognita. Samples (soil and roots of nematode parasited plants) were collected in producing areas from 2002 to 2004. Populational density of plant parasitic nematodes were evaluated and used to predict number of samples for monitoring. The study of induction resistance was carried out in one and two years old plants of a commercial area, fromSeptember to December in 2005. Acibenzolar-S-methyl (ASM), potassium silicate and neem cake were used as inductors, being analyzed free living and plant parasitic nematodes population density, area under nematode population density curve (AUNPDC), reproduction factor (RF), diameter of plant stem, β-1,3-glucanase and peroxidase activity. Enzymatic activity of esterase, phosphatase and peroxydase was evaluated in A. purpurata infected with M. incognita. Pratylenhus sp., Rotylenchulus sp., Meloidogyne spp., Helicotylenchus sp. and Criconemella sp. were frequents in most of samples. Symptoms of root-knot nematodes were verified in 100 % of the growing areas, being levels of Meloidogyne spp. considered high, up to 375 nematodes per 300 cm3 soil and 6090 nematodes per 20 g of roots, considering different areas and hosts. Among Meloidogyne species, M. incognita, M. arenaria and M. javanica were detected. Data analysis indicatedthat at least 11, 20, 10, 18 and 10 samples per area are recommended for monitoring the genus Pratylenchus, Rotylenchulus, Meloidogyne, Helicotylenchus and Criconemella, respectively, at 20 % error. The associations M. arenaria with E. elatior, Rotylenchulus sp. with A. purpurata, Heliconia spp. and M. coccinia, and Criconemella sp. with A. purpurata consisted of the first occurrence report in Pernambuco, Brazil. ASM was the best resistance inductor, reducing M. incognita population density, AUNPDC and FR with results similar to the nematicide control, but with no influence on free living nematodes in soil. Fitotoxic symptoms were not verified in any treatment. The action of ASM seems to be more related with peroxidases production than the β-1,3-glucanases activity in the plant. Among all of the inductors evaluated, ASM was the most effective inducing resistance against M. incognita in E. elatior. Enzymatic production was higher in A. purpurataparasited than in the controls. The acid phosphatase activity was high in contrast with the low esterase and peroxydase activity expressed in parasited plants. / O aumento expressivo na área plantada com ornamentais tropicais em Pernambuco reflete o crescente interesse pela floricultura no Estado. Este estudo teve por objetivos: 1) realizar levantamento de fitonematóides em áreas produtoras de Zingiberales em Pernambuco, 2) estimar o número de amostras recomendado para monitoramento, 3) avaliar os efeitos de indutores abióticos de resistência sobre a nematofauna associada à rizosfera, 4) avaliar a atividade de enzimas em plantas de bastão do imperador (Etlingera elatior), 5) analisar a produção de enzimas em plantas de alpínia (Alpinia purpurata) sob parasitismo de Meloidogyne incognita. No período de 2002 a 2004, foram visitadas 10 áreas produtoras de Zingiberales ornamentais (Etlingera elatior, Zingiber spectabilis, Alpinia purpurata, Musa coccinea, Tapeinochilos ananassae e Heliconia spp.), no estado de Pernambuco. Em cada propriedade, foram coletadas raízes de plantas parasitadas por fitonematóides e solo da rizosfera. Após processamento das amostras, foram determinadas as densidades populacionais dos gênerosde nematóides presentes e estimado o número recomendado de amostras para monitoramento, considerando diferentes níveis de erro aceitável. O estudo com indutores foi desenvolvido em plantio comercial, com plantas cultivadas por um e dois anos, no período de setembro a dezembro de 2005. Acibenzolar-S-metil (ASM), silicato de potássio e torta de nim foram utilizados como indutores. Foram analisadas a densidade populacional de nematóides parasitos e de vida livre, curva de densidade populacional dos nematóides, área abaixo da curva da densidade populacional(AACDP), fator de reprodução (FR), diâmetro do pecíolo e atividade das enzimas β-1,3-glucanase e peroxidase. No estudo de enzimas em plantas de alpínia, sob parasitismo de M. incognita foram determinadas as atividades da esterase, fosfatase ácida e peroxidase. No levantamento, constatou-se ocorrência freqüente dos gêneros: Pratylenhus, Rotylenchulus,Meloidogyne, Helicotylenchus e Criconemella. Sintomas da meloidoginose foram constatados em 100 % das áreas de plantio, com os níveis populacionais médios de Meloidogyne spp. elevados, alcançando 375 espécimes/300 cm3 de solo e 6090 espécimes/20 g de raízes, considerando diferentes hospedeiros e áreas. Entre as espécies de Meloidogyne foram detectadas M. incognita, M. arenaria e M. javanica. As estimativas do número de amostras indicaram que pelo menos 11, 20, 10, 18 e 10 amostras por área são recomendadas para monitoramento dos gêneros Pratylenchus, Rotylenchulus, Meloidogyne, Helicotylenchus e Criconemella, respectivamente, considerando um nível de erro de 20 %. As associações M. arenaria com E. elatior, Rotylenchulus sp. com A. purpurata, Heliconia spp. e M. coccinia, e Criconemella sp. com A. purpurata constituíram os primeiros relatos da ocorrência em Pernambuco. ASM reduziu a densidade populacional, AACDP e FR de M. incognita, apresentando resultados semelhantes aos obtidos pelo nematicida, destacando-se dos demais tratamentos, sem no entanto influenciar negativamente as populações de outros nematóides presentes no solo. Não foram verificados sintomas de fitotoxidez em nenhum dos tratamentos realizados. A ação do ASM mostrou-se mais relacionada com a produção de peroxidases do que com a atividade de β-1,3-glucanases em plantas de bastão do imperador. A produção de enzimas foi maior em A. purpurata parasitada do que na testemunha. A maior atividade foi verificada pela enzima fosfatase ácida, enquanto esterase e peroxidase expressaram fraca atividade em plantas parasitadas.
225

Purificação parcial de frações de Saccharomyces cerevisiae indutoras de resitência contra antracnose e avaliação de agentes bióticos (S. cerevisiae e Agro-Mos®) e abiótico (Bion®) na indução de resistência contra inseto (Tuta absoluta x tomateiro), nematóide (Meloidogyne incognita x pepineiro e organismo não alvo (Bradyrhizobium elkanii x soja) / Partial purification of fractions of Saccharomyces cerevisiae inducing resistance in cucumber plants against anthracnose and evaluation of biotic (S. cerevisiae and Agro-Mos®) and biotic (Bion®) agents in the resistance induction against insect (Tuta absoluta x tomato plants), nematode (Meloidogyne incognita x cucumber plants) and non-target organism (Bradyrhizobium elkanii x soybean plants)

Nivea Maria Tonucci Zanardo 27 August 2009 (has links)
Na indução de resistência a planta possui mecanismos de defesa físicos e químicos para impedir a entrada e o desenvolvimento de patógenos e parasitas, incluindo fungos, bactérias, vírus, nematóides e até insetos. Estes mecanismos são ativados por infecções prévias ou pelo tratamento com agentes indutores (eliciadores) bióticos ou abióticos. Entre os agentes indutores bióticos, destaca-se a S. cerevisiae, que além da importância biotecnológica, tem demonstrado em estudos prévios potencial para o controle de doenças em várias plantas de importância econômica. Produtos à base de S. cerevisiae, como por exemplo o Agro-Mos® (carboidratos da parede celular da levedura) estão disponíveis no mercado, mas não como indutores de resistência. Já o indutor químico registrado como Bion® vem sendo comercializado e utilizado na indução de resistência em diversas espécies de plantas contra vários patógenos. Os objetivos deste trabalho foram purificar parcialmente frações de S. cerevisiae indutoras de resistência em pepineiro contra antracnose, causada por Colletotrichum lagenarium, e avaliar o efeito do extrato bruto autoclavado de S. cerevisiae, Agro-Mos® e Bion® na indução de resistência contra o inseto T. absoluta em tomateiro, o nematóide M. incognita em pepineiro, como também, verificar o efeito destes agentes na interação simbiótica entre soja e B. elkanii. Os resultados mostraram que o extrato bruto aquoso de S. cerevisiae autoclavado por 4 h foi o mais efetivo na redução da antracnose. Dessa maneira, o mesmo foi submetido à precipitação etanólica e o sobrenadante da precipitação foi fracionado utilizando-se Cromatografia de Troca Aniônica - CTA. Obtiveram-se quatro picos, sendo que os picos I (frações não ligada à resina DEAE-celulose) e II (frações ligadas à resina DEAE-celulose) foram os mais efetivos na proteção de plântulas de pepineiro reduzindo a severidade de antracnose em 80% e 72%, respectivamente. A aplicação foliar do extrato bruto aquoso de S. cerevisiae, Agro-Mos® e Bion® não afetou o desenvolvimento do inseto em tomateiro, como também, não interferiu significativamente na multiplicação do nematóide em raízes de pepineiro. Na interação simbiótica da soja com B. elkanii, os agentes testados não afetaram a nodulação por B. elkanii em raízes e o desenvolvimento vegetativo das plantas. Porém, a aplicação foliar do extrato bruto autoclavado de S. cerevisiae aumentou a quantidade de nitrogênio total da parte aérea das plantas. Finalmente, conclui-se que frações de S. cerevisiae induziram resistência em pepineiro contra C. lagenarium. Por sua vez, os agentes testados são foram eficientes no controle do inseto herbívoro e do nematóide e não demonstraram efeito negativo na interação soja - rizóbio. / In the resistance induction, the plant has physical and chemical defense mechanisms to avoid the entrance and the development of pathogens and parasites, including fungi, bacteria, virus, nematodes and even insects. These mechanisms are activated by previous infections or by the treatment with biotic and abiotic inducer agents. Among the biotic agents there is S. cerevisiae, that besides the biotechnological importance, was shown in previous studies to control diseases in several plants of economical importance. Products made of S. cerevisiae, as for exemple, the Agro-Mos® (formulated with carbohydrates from the cellular wall of the yeast) are available in the market, but not resistance inducers. The chemical inducer known as Bion® is already marketed and used to induced resistance in several plant species against several pathogens. The objectives of this work were to partially purify fractions of S. cerevisiae able to induce resistance in cucumber against anthracnose, caused by Colletotrichum lagenarium, and also evaluate the effect of the autoclaved crude aqueous extract from S. cerevisiae, Agro-Mos® and Bion® in the resistance induction against the insect T. absoluta in tomato plants, the nematode M. incognita in cucumber plants, as well as to verify the effect of the agents in the symbiotic interaction envolving soybean and B. elkanii. The results showed that the crude aqueous extract of S. cerevisiae autoclaved for 4 h was the most effective out in the reduction of cucumber anthracnose. Thus, the same extract was submitted to ethanolic precipitation and the obtained supernatant was fractioned by using Anion Exchange Chromatography - AEC. For peaks were obtained and peak I (non-adsorbed fraction to DEAE-Cellulose) and II (fraction adsorbed to DEAE-Cellulose) were the most effective out in the protection of the cucumber seedling by reducing anthracnose severity in 81% and 72% ,respectively. The application of the autoclaved extract of S. cerevisiae, Agro-Mos® and Bion® did not affect the development of the insect in tomato plants as well as did not interfere significantly in the multiplication of the nematode in cucumber roots. In the symbiotic interaction of soybean and B. elkanii, the tested agents did not affect the formation of nodules in soybean roots and the vegetative development of the plants. However, the foliar application of the autoclaved crude extract of S. cerevisiae significantly increased the amount of total nitrogen in the aerial part of the plants. Finally, it is concluded that the fractions (peaks I and II) of S. cerevisiae induced resistance of the cucumber plants. However the tested agents were not efficient in the control of the herbivore insect and the nematode and did not exhibit negative effects in the symbiotic interaction soybean and rhizobium.
226

Effective control of neem (Azadirachta indica A. Juss) cake to plant parasitic nematodes and fungi in black pepper diseases in vitro: Research article

Duong, Duc Hieu, Ngo, Xuan Quang, Do, Dang Giap, Le, Thi Anh Hong, Nguyen, Vu Thanh, Smol, Nic 09 December 2015 (has links)
Neem cake is a product of the cold pressing from the neem kernels to obtain neem oil. Bio-active substances from neem cake extracted solutions were evaluated for their potential to control the root knot nematodes and other pests of plants. In this study different concentrations of the solution extracted from neem cake was tested against the second stage juveniles of the plant parasitic nematode Meloidogyne spp. and four phytopathogenic fungi: Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytopthora capsici. Toxicity of neem cake extractions is represented by the EC50 value for the second-stage juvenile (J2) of Meloidogyne spp. and the four phytopathogenic fungi via Probit analysis. A 5% dilution of the solvent extracting from neem cake already caused 100% larval mortality after 24 hours exposure. Undiluted neem cake extraction effectively inhibited the growth of the four phytopathogenic fungi. The EC50 value of neem cake on J2-larvae of Meloidogyne nematode and on the fungi Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytophthora capsici was 0.51, 0.74, 0.30, 0.51 and 4.33%, respectively. / Bánh dầu neem là sản phẩm của quá trình ép nhân hạt neem để lấy dầu. Các hoạt chất sinh học từ dịch chiết bánh dầu neem đã được đánh giá có tiềm năng lớn trong phòng trừ tuyến trùng nốt sưng và các loài dịch hại khác của nhiều loại cây trồng. Trong nghiên cứu này các nồng độ dịch chiết khác nhau của bánh dầu neem đã được thử nghiệm khả năng diệt tuyến trùng (ấu trùng tuổi 2 thuộc giống Meloidogyne spp.) và ức chế 4 loài nấm bệnh như: Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. và Phytopthora capsici. Độc tính của dịch chiết bánh dầu neem được biểu diễn bởi giá trị EC50 đối với ấu trùng tuổi 2 của tuyến trùng Meloidogyne spp. và các loài nấm bệnh thông qua phân tích Probit. Dịch chiết bánh dầu neem ở nồng độ 5% đã làm chết 100% cá thể IJ2 của Meloidogyne spp sau 24 giờ phơi nhiễm. Dịch nguyên chất bánh dầu neem ức chế cả 4 loài nấm bệnh. Giá trị EC50 của bánh dầu neem lên ấu trùng tuổi 2 của Meloidogyne spp và các loài nấm bệnh Rhizoctonia solani, Sclerotium rolfsii, Collectotrichum spp. and Phytophthora capsici tương ứng là 0.51, 0.74, 0.30, 0.51 và 4.33%.
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La fumigation biologique comme alternative au bromure de méthyle pour le contrôle du nématode Méloïdogyne incognita dans la production de concombre dans les serres / The use of biofumigation crops as an alternative to Methyl Bromide for the management of the root-knot nematode in greenhouse cucumber production

Haroutunian, Garabed 25 March 2013 (has links)
Les nématodes à galles demeurent l'un des problèmes les plus graves des ‎agriculteurs de serres du Liban et du Moyen-Orient. Dans le passé, la fumigation du sol au ‎bromure de méthyle a été considérée comme la meilleure mesure de contrôle contre ces ‎nématodes. Toutefois, à la lumière de l'élimination globale du bromure de méthyle, l'accès ‎aux alternatives efficaces et durables est devenu une nécessité essentielle.‎L'objectif de cette étude est d'évaluer l'efficacité des deux engrais verts, le radis ‎huileux (Raphanus sativus oleifera) et à la roquette (Eruca vesicaria sativa) appliquées ‎avec ou sans bâche en plastique, séparément et en combinaison avec Oxamyl, dans la ‎gestion des nématodes à galles en cultures de concombres de serre. En outre, cette étude ‎vise à évaluer la faisabilité financière de la technique de biofumigation avec les deux ‎cultures utilisées et de la rentabilité finale de ces engrais verts en termes de taux coût-profit ‎par rapport au bromure de méthyle.‎A cette fin, trois expériences sur le terrain ont été menées dans des serres ‎commerciales, situées sur la zone côtière du Liban.‎Dans les deux expériences A et B, des résultats cohérents ont été enregistrés en ‎termes de production de rendements significativement plus élevés et de la réduction des ‎populations de nématodes avec les engrais verts‎ utilisés avec ou sans bâche en plastique, ‎par rapport au témoin non traité.‎Quant aux résultats obtenus par les engrais verts‎ par rapport ‎ au bromure de ‎méthyle, dans l'expérience A, le rendement produit par le bromure de méthyle était ‎significativement plus élevé que celui du radis huileux avec bâche en plastique. ‎Cependant, la différence n'était pas significative entre la réduction de la population de ‎nématodes résultant du bromure de méthyle et celle du radis huileux avec bâche en ‎plastique. Les différences du rendement ainsi que la réduction des nématodes étaient ‎significatives entre le bromure de méthyle et le radis huileux sans bâche en plastique.‎Dans l'expérience B, aucune différence significative n'a été observée dans le ‎rendement ni la réduction de la population de nématodes entre aucun des deux engrais ‎verts‎ utilisés avec bâche en plastique et le bromure de méthyle. Ces différences étaient ‎significativement en faveur du bromure de méthyle uniquement lorsque le radis huileux a ‎été utilisé sans bâche en plastique.‎Dans l'expérience C, où Vydate (Oxamyl) a été appliqué à la dose de 1 litre par 1,000 ‎m2 à tous les traitements, il n'y avait pas de différence significative dans le rendement ni la ‎réduction de la population de nématodes entre chacun des deux engrais verts utilisés avec ‎ou sans bâche en plastique et le bromure de méthyle.‎L'analyse coût-profit menée sur tous les traitements appliqués dans les 3 ‎expériences a montré que dans tous les cas, tous les traitements appliqués, qu'ils soient ‎chimiques, non-chimique (avec ou sans bâche en plastique) ou en association ont produit ‎des bénéfices nets supérieurs au bromure de méthyle, même lorsque le rendement produit ‎par le bromure de méthyle était significativement plus élevée.‎L'utilisation du plastique pour couvrir les radis huileux a généralement produit de ‎meilleurs résultats en termes de production de rendements plus élevés, une meilleure ‎réduction des populations de nématodes à galles dans le sol, ainsi conduisant à des ‎augmentations raisonnables des profits nets.‎A la base de ces résultats et à la lumière de l'élimination globale du bromure de ‎méthyle, on peut conclure que l'utilisation du radis huileux et la roquette comme engrais ‎verts avec bâche en plastique peut être considéré comme un outil alternatif pour la gestion ‎des nématodes à galles dans la production de concombres de serre dans les conditions ‎libanaises.‎ / Root-knot nematodes remain one of the most serious problems faced ‎by ‎greenhouse farmers of Lebanon and the Middle East region. In the past, soil fumigation ‎with methyl bromide has been considered as ‎the best control measure against root-knot ‎nematodes. However, in the light of the global phase out of methyl bromide, finding ‎efficient and viable alternatives is an essential necessity.‎The objective of this study is to evaluate the efficacy of the two biofumigation ‎crops ‎Oil Radish (Raphanus sativus oleifera) and Arugula (Eruca vesicaria sativa) applied ‎with ‎and without plastic tarp, separately and in combination with Oxamyl in the ‎management of ‎the root-knot nematodes in greenhouse cucumber crops. Additionally, this ‎study aimed at ‎assessing the financial feasibility of the biofumigation technique with the ‎two cops used ‎and the final profitability of these green manure crops in terms of cost to ‎benefit ratio as ‎compared to methyl bromide.‎For this purpose, three field experiments were carried out in ‎commercial ‎greenhouses situated on the coastal zone of Lebanon.‎In both experiments A & B consistent results were recorded in terms of production ‎of ‎significantly higher yields and reduction of nematode population with the ‎biofumigation ‎crops used whether with or without plastic cover, as compared to untreated ‎fallow.‎As to the results achieved by the biofumigation crops with respect to methyl ‎bromide, ‎in experiment A yield produced by methyl bromide was significantly higher than ‎oil radish ‎with plastic cover. However, no significant difference was found between ‎reduction of ‎nematode population resulting from methyl bromide and oil radish with plastic ‎cover. ‎Difference was significant between methyl bromide and oil radish without plastic ‎cover in ‎both yield and reduction of nematodes.‎In experiment B no significant difference was observed in neither yield nor ‎reduction ‎of nematode population between any of the two biofumigation crops used with ‎plastic ‎cover and methyl bromide. These differences were significantly in favor of methyl ‎bromide ‎only when oil radish was used without plastic cover.‎In experiment C where Vydate (Oxamyl) was incorporated at the rate of 1 liter ‎per ‎‎1,000 m2 to all treatments, there was no significant difference in neither yield nor ‎reduction ‎of nematode population between any of the two biofumigation crops used with or ‎without ‎plastic cover.‎Cost-benefit analysis made on all treatments applied in the 3 experiments ‎showed ‎that in all cases, all treatments applied, whether chemical, non-chemical (with or ‎without ‎plastic cover) or in combination have produced higher net profits than methyl ‎bromide, ‎even when yield produced by methyl bromide was significantly higher.‎Use of plastic for covering oil radish has generally produced ‎better results in terms ‎of ‎production of higher yields, better reduction of soil ‎populations of root-knot nematodes‏‎ ‎and ‎‏leading to ‎‏reasonable increases of net profits.‎Based on these findings and in the light of global phase out of methyl bromide, ‎it ‎can be concluded that the use of oil radish and arugula as biofumigation crops with ‎plastic ‎cover can be considered as ‎an alternative management tool for the root-knot ‎nematode in ‎greenhouse cucumber ‎production under Lebanese conditions.‎

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