32 research outputs found

    Filbert insect pests

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    Title from PDF cover (viewed on November 2, 2017).This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Mode of access: Internet from the Oregon Government Publications Collection.Text in English

    Bacterial blight of filbert

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    Title from PDF caption (viewed on December 8, 2017).This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Mode of access: Internet from the Oregon Government Publications Collection.Text in English

    Care of wind-damaged filbert trees

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    Title from PDF caption (viewed on July 12, 2017).This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Mode of access: Internet from the Oregon Government Publications Collection.Text in English

    Investment in processing facilities and employment in the Oregon walnut and filbert industry

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    Title from PDF caption (viewed on December 7, 2017).This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Mode of access: Internet from the Oregon Government Publications Collection.Text in English

    Flowering and Yield of Eastern Filbert Blight-Resistant Hazelnut Cultivars in Southwest British Columbia

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    Trees of six recently released hazelnut (Corylus avellana) cultivars (Eta, Gamma, Jefferson, Sacajawea, Theta, and Yamhill) were grown at five locations in southwestern British Columbia to evaluate female receptivity and pollen shed timing, disease resistance, and nut yield. The overlap of female receptivity and pollen shed of mating-compatible cultivars equaled or exceeded that reported elsewhere. Following 4–6 yr of field growth without fungicides at sites adjoining eastern filbert blight (EFB)-infected orchards, EFB symptoms were absent from four cultivars (Eta, Gamma, Theta, Yamhill), negligible on Jefferson, and substantial on Sacajawea. Two additional potential diseases, Phomopsis sp. and Phytophthora sp., were observed on several trees at multiple farms. Yields varied by cultivar and farm, averaging 2.9 kg per tree of sixth-leaf Jefferson and 1.0 kg per tree of fourth-leaf Yamhill; the highest yield per tree observed was 9.3 kg for fifth-leaf Jefferson. These data, the first describing flowering and yield of these cultivars from operational orchards and the only such data from British Columbia, demonstrate the potential for new hazelnut cultivars even where pressure from eastern filbert blight is high. Also revealed are two potential emergent diseases for which growers need to remain vigilant.The accepted manuscript in pdf format is listed with the files at the bottom of this page. The presentation of the authors' names and (or) special characters in the title of the manuscript may differ slightly between what is listed on this page and what is listed in the pdf file of the accepted manuscript; that in the pdf file of the accepted manuscript is what was submitted by the author

    Identifying and evaluating eastern filbert blight resistant hazelnuts (Corylus spp.) in New Jersey

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    Eastern filbert blight (EFB), caused by the fungus Anisogramma anomala (Peck) E. Müller, is a destructive disease of European hazelnut (Corylus avellana). While the wild North American hazelnut, C. americana, only experiences minor symptoms, commercially grown C. avellana is extremely susceptible. Anisogramma anomala, whose range includes much of the U.S. east of the Rocky Mountains, is considered to be the main impediment to commercial hazelnut production in the East. As such, identifying and developing resistant C. avellana germplasm is critical to establishing an industry in this region. To support this goal, several research projects were undertaken. In the first study, 193 clonal hazelnut accessions spanning multiple Corylus species and inter-specific hybrids were examined for their disease response to EFB in New Jersey. In summary, despite the fact that many of the plants were shown to be resistant in Oregon, some accessions developed EFB in New Jersey. These results support previous work that suggests different isolates of the pathogen are present in the eastern U.S., and resistance may not hold up unilaterally. A second study included searching for new sources of resistance to EFB. New hazelnut germplasm was collected from Russia, Poland, and Ukraine and exposed to EFB. After at least five years of exposure, plants were rated for iii the presence of EFB. At completion, 76 trees from 24 seed lots were found to be free of EFB with several trees that also produced excellent quality kernels. The final study was predicated on evaluating known resistant plants for their flowering phenology in New Jersey. Phenological timing of flowering in hazelnuts is critical to ensure complete pollination and high crop yields. Nineteen hazelnut accessions were evaluated compared to daily temperatures over 4 years. Results showed that the accessions followed a similar progression of bloom each year (both staminate and pistillate flowers), which allowed their placement into Early, Mid-, and Late flowering groups. These findings represent the first efforts to report on flowering and bud break phenology in New Jersey, where the winter climate is colder and more variable than that of Oregon and other commercial hazelnut growing regions.M.S.Includes bibliographical referencesby John Michael Capi

    Filberts

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    Part I. Growing Filberts in Oregon. -- Part II. Experimental Data on Filbert Pollination.by C.E. Schuster.This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Includes bibliographical references (page 39).Mode of access: Internet from the Oregon Government Publications Collection.Text in English

    Characterizing the response of diverse hazelnut germplasm to eastern filbert blight in New Jersey

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    The fungal disease eastern filbert blight (EFB), caused by Anisogramma anomala, is the primary limiting factor to European hazelnut (Corylus avellana) production in the United States. Developing resistant cultivars is considered the most effective management strategy. Breeding efforts at Oregon State University (OSU) have successfully introgressed the dominant EFB resistance gene (R-gene) from ‘Gasaway’ into commercial quality cultivars that have been widely adopted in the Willamette Valley of Oregon, where >99% of US hazelnut production occurs. Concerns over the durability of a single gene for resistance drove germplasm screening efforts at OSU and instigated germplasm collection trips throughout the native range of C. avellana by OSU and Rutgers University, which resulted in the identification of over 100 sources of resistance to EFB. Sources exhibit tolerance (quantitative resistance [QR]) or qualitative resistance associated with R-genes, 34 of which have been mapped to three of C. avellana’s eleven genetic linkage groups (LGs). However, A. anomala exhibits pathogenic variation between populations and some selections made at OSU, where the pathogen is believed to be genetically uniform, have shown variable resistance expression when exposed to A. anomala populations in New Jersey, including trees protected by the ‘Gasaway’ R-gene. Further variability has been observed in long term disease trials at Rutgers, where mature, previously resistant trees started expressing EFB, in some cases more than 15 years after initial exposure to A. anomala. The goals of these studies were to identify changes in resistance expression in Rutgers’ foreign germplasm introductions (n=154) and to characterize differences in EFB resistance expression in cultivars and breeding selections deemed resistant or highly tolerant to EFB at OSU (n=106) when planted in replicated trials at Rutgers. In the germplasm collection, we found 91 introductions that remain resistant, representing only 1.7% of the original 5,226 seedlings planted at Rutgers. New infections (n=63) were severe and primarily linked to trees in specific seedlots, indicative of a breakdown in resistance. The 91 remaining foreign introductions represent 54 distinct seedlots from 7 countries and span 14 of 18 resolved C. avellana genetic clades. Similarly, the 106 cultivars and breeding selections from OSU exhibited variable response to A. anomala at Rutgers. With only two exceptions, cultivars/selections carrying resistance mapped to LG6 (n=30), including the ‘Gasaway’ R-gene, exhibited severe EFB with canopy death observed in 232 of 266 (87%) individual trees. In addition, EFB was identified on carriers of R-genes mapped to LG7, with ‘Ratoli’ related selections (n=4) developing EFB for the first time in their over 20 years of observation at Rutgers, although all other LG7 protected selections (n=7) showed no signs of EFB. With one exception, selections mapped to LG2 (n=9) showed no EFB and cultivars/selections expressing QR (n=50) exhibited disease phenotypes more similar to what they expressed at OSU. These collective findings support that A. anomala displays pathogenic variation between populations and that long term observation of resistance sources across multiple locations and pathogen populations is needed to select durable forms of resistance. Fortunately, dozens of genotypes still exhibit useful levels of resistance/tolerance at Rutgers and constitute a diverse base from which to develop cultivars with sustainable resistance to EFB.M.S.Includes bibliographical reference

    Perancangan Model Excavator dengan Penggerak Hydraulic Syringe Menggunakan Remote Control IoT

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    Jurnal ini membahas tentang perancangan prototipe dari excavator dengan sistem penggerak lengan excavator menggunakan sistem hidrolik yang diterapkan menggunakan syringe. Perkembangan dalam dunia industri dan teknologi telah menuntut penggunaan mesin produksi yang mudah dikendalikan dan memiliki keakuratan maupun kekuatan yang sesuai. Sistem tenaga fluida adalah salah satu jenis sistem yang bekerja dengan memanfaatkan fluida gas maupun cair untuk melakukan transmisi gaya, sistem tersebut memiliki sensitivitas dan kekuatan yang baik untuk membantu kerja sebuah mesin secara mekanis Sistem tenaga fluida yang digunakan dalam penelitian ini berjenis hidrolik sederhana yang memanfaatkan air sebagai fluida kerja, sedangkan sistem kontrol akan dirancang dengan memanfaatkan perangkat ESP 32 dan server milik Blynk. Hasil pengujian yang didapatkan yaitu hidrolik pada lengan pertama (Boom) mampu menarik beban hingga 2,55 N, hidrolik pada lengan tengah (Arm) mampu menarik beban hingga 2,5 N, hidrolik ketiga menunjukkan bahwa bucket mampu menarik beban hingga 1,4 N
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