Relevant bibliographies by topics / Camcorders Lancaster County (Pa.)

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Academic literature on the topic 'Camcorders Lancaster County (Pa.)'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Camcorders Lancaster County (Pa.)"

1

Kurland, Nancy B., and Sara Jane McCaffrey. ""Preservation, Succession, and the Culture of Farming in Lancaster County, PA"." Academy of Management Proceedings 2016, no. 1 (January 2016): 11961. http://dx.doi.org/10.5465/ambpp.2016.11961abstract.

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Meschutt, David. "Thomas R. Ryan, ed. The Worlds of Jacob Eichholtz: Portrait Painter of the Early Republic. Lancaster, Pa.: Lancaster County Historical Society, 2003; distributed by Pennsylvania State University Press. xiii+178 pp.; 232 black and white and color illustrations, index. $39.95 (cloth); $19.95 (paper)." Winterthur Portfolio 39, no. 4 (December 2004): 279–81. http://dx.doi.org/10.1086/497850.

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Heller, P. R., and R. Walker. "Timing Study to Evaluate Product Performance of RH-0345 and Imidacloprid to Suppress Green June Beetle Grubs on a Golf Course Fairway in Lancaster County, Pennsylvania, 1996." Arthropod Management Tests 23, no. 1 (January 1, 1998): 353–54. http://dx.doi.org/10.1093/amt/23.1.353a.

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Abstract The fairway located in Lancaster County, PA, consisted primarily of perennial ryegrass (80%) and creeping bentgrass (50%). Treatment plots were 7 X 6 ft, arranged in a RCB design and replicated 3 times. Liquid formulations were applied by using a CO2 sprayer with 4 8004VS TeeJet nozzles mounted on a 6-ft boom, operating at 28 psi, and delivering 4 gal/1000 ft2. At the 1st treatment time (4 Jun), the following soil and environmental conditions existed: air temperature, 68° F; soil temperature at 1-inch depth, 64° F; soil temperature at 2-inch depth, 62° F; RH, 67%; amount of thatch, 0.125 inch; soil type, silt loam; soil particle size analysis: 30.7% sand, 61.9% silt, 7.4% clay; soil moisture (oven baked), 28.3%; organic matter, 5.6%; water pH, 7.0; soil pH, 6.1; time of treatment, mid-morning; and overcast skies. The experimental area was irrigated with 0.25 inch of water 3 fir after treatment. At the 2nd treatment time (15 Jul), the following soil and environmental conditions existed: air temperature, 78° F; soil temperature at 1-inch depth, 74° F; soil temperature at 2-inch depth, 75° F; RH, 75%; amount of thatch, 0.0625-0.125 inch; soil type; silt loam; soil particle size analysis: 30.7% sand, 61.9% silt, 7.4% clay; soil moisture (oven baked), 37.7%; organic matter, 7.2%; water pH, 7.0; soil pH, 5.9; time of treatment, mid-morning; and cloudy skies. The experimental area was irrigated with 0.25 inch of water immediately after product dried. A the 3rd treatment time (12 Aug), the following soil and environmental conditions existed: air temperature, 65° F; soil temperature at 1-inch depth, 69° F; soil temperature at 2-inch depth, 69° F; RH, 90%; amount of thatch, 0.0625-0.125 inch; soil type, silt loam; soil particle size analysis: 30.7% sand, 61.9% silt, 7.4% clay; soil moisture (oven baked), 40.0%; organic matter, 5.7%; water pH, 7.0; soil pH, 6.5; time of treatment, early morning; and cloudy skies. The experimental area was irrigated with 0.25 inch of water immediately after product dried. Post-treatment counts were made on 29 Aug. The total number of green of June beetle larvae flushed to the surface following an application of Sevin SL over a 24-hr observation interval was recorded from each replicate.
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Castroagudin, Vanina, Nina Shishkoff, Olvia Stanley, Reese Whitesell, Tracey Olson, and Jo Anne Crouch. "First report: Co-infection of Sarcococca hookeriana (sweetbox) by Coccinonectria pachysandricola and Calonectria pseudonaviculata causes a foliar disease of sweetbox in Pennsylvania." Plant Disease, December 1, 2020. http://dx.doi.org/10.1094/pdis-06-20-1198-pdn.

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Sweetbox (Sarcococca hookeriana) are high value ornamental shrubs susceptible to disease caused by Calonectria pseudonaviculata (Cps) and Coccinonectria pachysandricola (Cpa) (Malapi-Wight et al. 2016; Salgado-Salazar et al. 2019). In July 2018, 18-month old sweetbox with leaf spots and defoliation were observed in a residential landscape in Lancaster County, Pennsylvania. Small tan leaf spots grew to cover half of the leaf, developing a concentric banding with dark brown rings and a yellow halo (Sup. Doc. 1: Sup. Fig. 1). The symptoms agreed with those of Cpa disease of sweetbox reported from Washington D.C. (Salgado-Salazar et al. 2019). Diseased plants were located ~1.5 m from Buxus sempervirens with boxwood blight. Morphological and genetic characterization of isolated fungi and pathogenicity tests followed Salgado-Salazar et al. (2019) (Sup. Doc. 2). White to salmon pink spore masses developed on the abaxial leaf surface after humid chamber incubation. Two distinct fungal cultures were recovered (JAC 18-61, JAC 18-79) on potato dextrose agar (Fisher Scientific, Pittsburg, PA). JAC 18-61 presented cultural and morphological characteristics as described for Cps (Crous et al. 2002). JAC 18-79 produced flat, filamentous, light salmon colonies with tan centers and white filiform borders containing pale pink sporodochia, verticillate and simple conidiophores (x̄: 61.8 ± 20.12 µm, N = 20) with lateral, cylindrical phialides (x̄ = 18.1 ± 5.83 x 2.4 ± 0.7 µm, N = 20), and ellipsoid, hyaline conidia without septa (x̄ = 15.2 ± 1.9 x 3.3 ± 0.7 µm, N = 20). Sexual structures and chlamydospores were not observed. The characteristics of JAC 18-79 agree with those reported for Cpa (Salgado-Salazar et al. 2019). Bidirectional sequencing of the ITS, beta-TUB, and RPB1 and RPB2 regions was performed as described (Salgado-Salazar et al. 2019). BLASTn comparisons against NCBI GenBank revealed JAC 18-61 sequences (MT318150 and MT328399) shared 100% identity with Cps sequences (JX535321 and JX535307 from isolate CB002). Sequences from JAC 18-79 (MT318151, MT341237 to MT341239) were 100% identical to Cpa sequences (MH892596, MH936775, MH936703 from isolate JAC 16-20 and JF832909, isolate CBS 128674). The genome of JAC 18-79 was sequenced and yielded an assembly of 26.3 Mb (204 contigs > 1000 bases, N50 = 264.3 kb, 92x coverage, JABAHV0000000000) that contained the MAT1-2 mating-type idiomorph and shared 98.9% similarity with Cpa BPI910731. Isolate JAC 18-61 (Cps) caused lesions on wounded and unwounded sweetbox and boxwood leaves (Sup. Table 1). In general, JAC 18-79 (Cpa) infected only wounded leaves of both hosts; however, in one trial, one unwounded sweetbox and two unwounded boxwood plants developed lesions, possibly due to the presence of natural wounds. Control plants did not develop symptoms. These results diverge to some degree from previous reports of Cpa infecting unwounded sweetbox and not infecting wounded boxwood (Salgado-Salazar et al. 2019). These results indicate that virulence variation among Cpa isolates might occur. Plating of symptomatic tissue and examination of spores fulfilled Koch’s postulates for both pathogens. To our knowledge, this is the first report of Cpa blight on sweetbox in Pennsylvania, and the second U.S. report of the disease. This is also the first report of co-infection of Cpa and Cps on diseased sweetbox foliage. Given the capacity of Cpa to infect both sweetbox and boxwood, inspection for Cpa on both hosts is advisable.
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Dissertations / Theses on the topic "Camcorders Lancaster County (Pa.)"

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Groff, Beverly B. "A study of the use of the video camera in the senior high schools of Lancaster County, Pennsylvania." Instructions for remote access. Click here to access this electronic resource. Access available to Kutztown University faculty, staff, and students only, 1994. http://www.kutztown.edu/library/services/remote_access.asp.

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Thesis (M.S.)--Kutztown University of Pennsylvania, 1994.
Source: Masters Abstracts International, Volume: 45-06, page: 2806. Abstract precedes thesis as [1] preliminary leaf. Typescript. Includes bibliographical references (leaves 52-53).
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2

Quiggle, Robert J. "Cordage and basketry impressions on ceramics from the Strickler site (36La03), Lancaster County, Pennsylvania." Diss., Online access via UMI:, 2005.

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Ashcraft, David N. "How Lancaster County Bible Church may become a purpose-driven church." Theological Research Exchange Network (TREN), 1999. http://www.tren.com.

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Anderson, Cory. "Causative Factors of Crashes between a Motor Vehicle and the Amish and Old Order Mennonite Horse and Buggy." VCU Scholars Compass, 2008. http://scholarscompass.vcu.edu/etd/1646.

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Horse and buggy transportation is spreading as rapidly as its Amish and Old Order Mennonite users are, as are buggy crashes with motor vehicles. This study examines the primary causes of 76 reported horse and buggy crashes in Pennsylvania in 2006. The main crash types identified include a motorist rear-ending a forward-moving buggy, motorist failing to pass a buggy, buggy struck while crossing an intersection, and buggy struck while making a left turn. While causative factors varied for each crash type, major factors include the motorist or buggy driver incorrectly comprehending speed differentials, the motorist acting carelessly around the buggy, and miscommunication between the motorist and buggy driver. Within these crash types, buggy conspicuity was neither a major issue nor a possible cause in most.
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Books on the topic "Camcorders Lancaster County (Pa.)"

1

Wevodau, Edward N. Abstracts of Lancaster County, PA orphans court records. Apollo, PA: Closson Press, 2001.

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Wevodau, Edward N. Abstracts of Lancaster County, PA, wills (1821-1830). Apollo, Pa: Closson Press, 2000.

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Lancaster County, PA , connections: Compiled from deeds recorded in Lancaster from 1770 to 1830. Apollo, PA: Closson Press, 2010.

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Black, Arthur G. Descendants of Christian Shively of Warwick Township, Lancaster County, Pa. [Kansas City?, Mo: [s.n.], 1986.

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Myers, Eva M. Salem Church of Kissel Hill: Warwick Township, Lancaster County, Pennsylvania. Apollo, PA: Closson Press, 2001.

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Abstracts of Lancaster County, PA deed records: Including areas now comprising Dauphin and Lebanon counties. Apollo, PA: Closson Press, 2002.

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7

Miller, Ruff Paul. Zion English Lutheran Church: Lancaster Township, Butler County : parish records, 1861-1925. [Greensburg, PA]: P.M. Ruff, 1996.

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Copper, Dwight Edward. Grace Bible Church Cemetery: Organized as St. Peter's German Reformed Church, 1854 : village of Middle Lancaster, Lancaster Township, Butler County, Pennsylvania. Chicora, PA: Mechling Bookbindery, 2003.

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9

Burkey, Stanley Walter. The Daniel Miller Berkeyheiser book: Descendants of Daniel Miller Berkeyheiser (1844-1934) of Salisbury Township, Lancaster County, PA. Kampala, Uganda: Stanley Walter Burkey, 2009.

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Zahn, Willard F. John Zahn, born in Bavaria in 1818, lived and died in Lancaster County, PA in 1889, and his descendants. Long Beach, CA (2538 E. 2nd St., 205, Long Beach 90803): W.F. Zahn, 1990.

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Conference papers on the topic "Camcorders Lancaster County (Pa.)"

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Shank, Stephen G. "CROSS SECTION ACROSS PALEOZOIC PIEDMONT TERRANE, SOUTHERN LANCASTER COUNTY, PA." In Joint 52nd Northeastern Annual Section and 51st North-Central Annual GSA Section Meeting - 2017. Geological Society of America, 2017. http://dx.doi.org/10.1130/abs/2017ne-291342.

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