Academic literature on the topic 'Peruvianum'
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Journal articles on the topic "Peruvianum"
Burke, Janelle M., and Fabian Michelangeli. "Lectotypification of Peruvian Melastomataceae described by Cogniaux from Weberbauer collections." Phytotaxa 125, no. 1 (August 21, 2013): 10. http://dx.doi.org/10.11646/phytotaxa.125.1.2.
Full textMolinari-Novoa, Eduardo Antonio. "Further Nomenclatural Changes Regarding Peruvian Endemics." Polish Botanical Journal 61, no. 2 (December 1, 2016): 275–77. http://dx.doi.org/10.1515/pbj-2016-0021.
Full textAlleman Haeghebaert, Vera. "Ejemplares representativos de las colecciones de paleobotánica peruana en el museo de historia natural “Vera Alleman Haeghebaert”." Biotempo 13 (July 7, 2017): 46–51. http://dx.doi.org/10.31381/biotempo.v13i0.795.
Full textMolinari-Novoa, Eduardo Antonio. "Review of theTrifolium amabileComplex in Peru, with the Description of a New Species." Scientifica 2016 (2016): 1–5. http://dx.doi.org/10.1155/2016/5435781.
Full textSuinaga, Fábio Akiyoshi, Marcelo Coutinho Picanço, Márcio Dionízio Moreira, Altair Arlindo Semeão, and Sérgio Tinôco Verçosa de Magalhães. "Resistência por antibiose de Lycopersicon peruvianum à traça do tomateiro." Horticultura Brasileira 22, no. 2 (June 2004): 281–85. http://dx.doi.org/10.1590/s0102-05362004000200023.
Full textLabate, Joanne A., Larry D. Robertson, Susan R. Strickler, and Lukas A. Mueller. "Genetic structure of the four wild tomato species in the Solanum peruvianum s.l. species complex." Genome 57, no. 3 (March 2014): 169–80. http://dx.doi.org/10.1139/gen-2014-0003.
Full textLOURENÇÃO, ANDRÉ LUIZ, HIROSHI NAGAI, WALTER JOSÉ SIQUEIRA, JOSÉ ALFREDO USBERTI FILHO, and ARLETE MARCHI TAVARES DE MELO. "SELEÇÃO DE TOMATEIROS RESISTENTES A TOSPOVÍRUS." Bragantia 56, no. 1 (1997): 21–31. http://dx.doi.org/10.1590/s0006-87051997000100003.
Full textStommel, John R. "SUGAR ACCUMULATION IN FRUIT OF CULTIVATED AND WILD SPECIES OF TOMATO." HortScience 25, no. 9 (September 1990): 1141c—1141. http://dx.doi.org/10.21273/hortsci.25.9.1141c.
Full textRibeiro, Cláudia Silva da Costa, and Leonardo de Britto Giordano. "Método de obtenção de híbridos interespecíficos entre Lycopersicon esculentum e L. peruvianum." Pesquisa Agropecuária Brasileira 36, no. 5 (May 2001): 793–99. http://dx.doi.org/10.1590/s0100-204x2001000500009.
Full textGordillo, Luis F., Mikel R. Stevens, Mark A. Millard, and Brad Geary. "Screening Two Lycopersicon peruvianum Collections for Resistance to Tomato spotted wilt virus." Plant Disease 92, no. 5 (May 2008): 694–704. http://dx.doi.org/10.1094/pdis-92-5-0694.
Full textDissertations / Theses on the topic "Peruvianum"
Bucka, Alexander. "Charakterisierung kleiner cytoplasmatischer Hitzeschockproteine der Wildtomate (Lycopersicon peruvianum L.)." [S.l. : s.n.], 1999. http://deposit.ddb.de/cgi-bin/dokserv?idn=960861424.
Full textHeerklotz, Dirk. "Charakterisierung der Kernexportsequenz des Hitzestresstranskriptionsfaktors A2 aus Lycopersicon peruvianum." [S.l. : s.n.], 2001. http://deposit.ddb.de/cgi-bin/dokserv?idn=963870483.
Full textKinsara, A. M. "Somatic hybridization of tomato : Lycopersicon esculentum with Lycopersicon peruvianum." Thesis, University of Nottingham, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.373335.
Full textMalaoui, S. "Potential new sources of TMV resistance in Lycopersicon peruvianum." Thesis, University of Nottingham, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.233618.
Full textArias, Ramírez Angela Renee. "Biotecnología y metabolitos secundarios en Lepidium peruvianum Chacón, "Maca"." Bachelor's thesis, Universidad Nacional Mayor de San Marcos, 2002. https://hdl.handle.net/20.500.12672/1401.
Full textLepidium peruvianum Chacón, is a Cruciferae native from the Andes. It grows between 3,500 and 4500 m. Original from the Bombón plateau, located at the Peruvian localities Junín and Pasco. It became in a crop with a high economical value, due its medicinal and nutritional properties. Actually, it is extended to other regions of the country. The main objective of this research is to study the tissue culture ability of the crop to use in vitro tissues as a tool for secondary metabolite production. Leaves, petioles, roots and hypocotils of L. peruvianum were tested as explants to induce calli. Different concentrations of 2,4-D and Kinetin, in MS basic medium were tested. Calli were induced in most of the media tested, the most efficient hormone ratio auxin/citokinin was 1. It was evaluated the presence of glucosinolates and alkaloids in the callus induced and compared to maca hypocotils as control sample. Two glucosinolates fractions were obtained from calli analyzed. It was found one or two fractions according to the callus and in most of the cases the concentration was higher in callus than in control. In the other hand, it was observed a high variability in the alkaloid fractions and other unidentified metabolites extracted from the calli evaluated in this work. It was also evaluated the presence of myrosinases in the calli studied, and it was found positive bands either in callus as in maca hypocotils.
Tesis
McCarthy, Mirabai R. "Molecular Systematics and Morphology of the Adiantum peruvianum Group (Pteridaceae)." Miami University / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=miami1350236402.
Full textCampos, Gabriela Natalia. "Aprovechamiento de las especies Solanum peruvianum en la mejora del tomate." Doctoral thesis, Universitat Politècnica de València, 2018. http://hdl.handle.net/10251/100858.
Full textAccession S. peruvianum PI 126944 has been reported as resistant to several biotic stresses, among them to Tomato yellow leaf curl disease, (TYLCD). In previous works carried out in the "Instituto Universitario para la Conservación y Mejora de la Agrodiversidad Valenciana" (COMAV) three interspecific hybrids between this accession and cultivated tomato were obtained, using immature seeds rescue. In subsequent works more advances generations from these materials were developed, including until the pseudo-F6 generations and backcrosses to the cultivated species of some of the pseudo-Fn generations. With the aim of taking advantage of these materials in the improvement of cultivated tomato, in previous works of the group, the development of a set of Introgression lines (ILs) that contain the genome of the accession PI 126944 in the genetic background of S. lycopersicum was initiated. The obtaining of a large number of descendants is necessary in order to have correctly represented the genome of the donor species, thus there is the need to optimize the protocols In this sense, the first aim of this work was the study of several factors involved in the overcoming of the incompatibility barriers, to obtain a high number of descendants and maximize the probability of introgressing the genome of PI 126944 in the set of ILs. Three backcross assays were carried out, initiated with different plants of the generations pseudo-F4, pseudo-F5 and pseudo-F6. The parental genotype resulted a determinant factor in the obtaining of descendants, so the recommendation is the use of the maximum number of different genotypes, in order to maximize the probability of obtaining progeny. A proof of different culture media was carried out, which allowed the selection of the better combination of auxins and cytokinins to grow immature seed and regenerate plants. The effect of the number of days from pollination to fruit harvest was also studied. As mentioned before, the collection of ILs results of interest, given the resistance of the donor parental to TYLCD, among others traits. Once the collection is completed, it will be evaluated for its resistance to this disease. The previous studies showed that it is probably a quantitative resistance, whose expression is often more dependent of the environmental conditions and of other factors. In these cases, the use of only one resistant and one susceptible control is not sufficient to determine with accuracy the level of resistance. Availability of controls with different levels of resistance would allow a more precise phenotyping. A group of researchers of the "Volcani Center" developed a scale that consisted of seven lines with different levels of resistance to TYLCD, introgressed from different wild species. In this work, the response of this scale in seven distinct assays was evaluated, four of them carried out in the COMAV-UPV and the others three in the "Instituto Nacional de Ciencias Hortícolas de Cuba". Two isolates of TYLCV (Tomato yellow leaf curl virus), one of the species causing TYLCD, different inoculation method, two development stages of the plant and several environmental conditions were evaluated. In general, the symptoms were more slight that the obtained in the conditions assayed by the authors that developed the scale, although the order of the lines in the scale were maintained, with few exceptions. However, in most of the conditions, the response obtained did not correspond to a graded scale, since there were high differences among the symptom scores of the susceptible and the resistant lines, with very small the differences among the resistant lines. These results suggest the possibility to reduce the number of lines to employ in each concrete condition, selecting the most susceptible, the most resistant and another with intermediate levels of resistance.
L'entrada PI 126944 de S. peruvianum ha sigut descrita com a resistent a diferents estresses biòtics, entre ells a la malaltia de l'arrissat groc de la tomaca (Tomato yellow leaf curl disease, TYLCD). En treballs previs realitzats en el "Instituto Universitario para la Conservación y Mejora de la Agrodiversidad Valenciana" (COMAV) es van obtenir tres híbrids interespecífics entre aquesta entrada i la tomaca cultivada, emprant el rescat de llavors immadures. En treballs posteriors, es van desenvolupar generacions més avançades a partir d'aquests materials, incloent fins a les generacions pseudo-F6 i retrocreuaments cap a l'espècie cultivada d'algunes de les generacions pseudo-Fn. A fi de aprofitar aquests materials en la millora de la tomaca cultivada es va iniciar, en treballs anteriors del grup, el desenvolupament d'un conjunt de línies d'introgressió (Introgression lines, ILs) que continguen el genoma de l'entrada PI 126944 en el fons genètic de S. lycopersicum. Per a tenir correctament representat el genoma de l'espècie donant en el fons genètic de la tomaca és necessari obtenir un gran nombre de descendents, per la qual cosa és necessari optimitzar els protocols. El primer objectiu d'aquesta tesi va ser l'estudi de diferents factors implicats en la superació de les barreres d'incompatibilitat, a fi d'aconseguir un elevat nombre de descendents i maximitzar la probabilitat d'introgressar el genoma de PI 126944 en el conjunt de ILs. Es van dur a terme tres assajos de retrocreuament, iniciats amb diferents plantes de les generacions pseudo-F4, pseudo-F5 i pseudo-F6. El genotip dels parentals va resultar un factor determinant en l'obtenció de descendència, per la qual cosa es recomana utilitzar el màxim nombre de genotips diferents, a fi de maximitzar la probabilitat d'obtenir descendència. Es va dur a terme una prova de medis de cultiu que va permetre seleccionar la combinació més adequada d'auxines i citoquinines per al cultiu de llavors immadures i posterior regeneració de plantes. Es va estudiar l'efecte del nombre de dies transcorreguts des de la pol·linització fins a la recol·lecció dels fruits, havent-se obtingut resultats diferents. Tal com s'ha comentat anteriorment, aquesta col·lecció de ILs presenta interès per la resistència del parental donant a TYLCD. Una vegada es complete la col·lecció, s'avaluarà per la seua resistència a aquesta malaltia. Els estudis previs han mostrat que es tracta probablement d'una resistència quantitativa, l'expressió de la qual sovint és més depenent de les condicions ambientals i d'altres factors. En aquests casos, l'utilització d'un sol control resistent i un altre susceptible no és suficient per a determinar amb exactitud el nivell de resistència dels materials en estudi. La disponibilitat de controls amb diferents nivells de resistència permetria realitzar un fenotipat més precís. Un grup d'investigadors del "Volcani Center" van desenvolupar una escala composta per set línies amb diversos nivells de resistència a TYLCD, introgressada a partir de diferents espècies silvestres. En el marc d'aquesta tesi es va avaluar el comportament d'aquesta escala en set assajos diferents, quatre d'ells duts a terme en el COMAV-UPV i els altres tres en el "Instituto Nacional de Ciencias Hortícolas de Cuba". Es van comparar dos aïllats deTYLCV (Tomato yellow leaf curl virus), una de les espècies causants de TYLCD, diferents mètodes d'inoculació, dos estats de desenvolupament de la planta i diferents condicions ambientals. Els símptomes van ser més lleus que els obtinguts en les condicions assajades pels autors que van desenvolupar l'escala, si ben l'ordre de les línies en l'escala es va mantenir, amb poques excepcions. No obstant açò, en la major part de les condicions, la resposta obtinguda no va correspondre a una escala gradual, ja que es va observar una gran diferència entre els valors de símptomes de les línies susceptibles i les resiste
Campos, GN. (2018). Aprovechamiento de las especies Solanum peruvianum en la mejora del tomate [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/100858
TESIS
Ayambo, Saavedra Luis Danny. "Optimización del proceso de extracción etanólica de Lepidium peruvianum Chacón, "maca"." Bachelor's thesis, Universidad Nacional Mayor de San Marcos, 2006. https://hdl.handle.net/20.500.12672/1111.
Full textThe present work of investigation develops a methodology for the optimization of the process that increases the extraction of glucosinolates mainly the benciglucosinolate of the etanolic extract by the tuberous root of Lepidium peruvianum Chacón (maca) under the form of atomized extract. The optimized process begins with the harvesting by the tuberous root of Lepidium peruvianum Chacón (maca) coming from district of San Francisco de Uco (Junín), adds liquid Nitrogen to him to diminish the temperature to - 50° C that inhibits the activity of myrosinases, enzymes which they degrade the glucosinolates, immediately is come to the worn out one using a mill of hammers provided with mesh N° 4, soon by mesh N° 10, it adds the ground one to a steel tank with agitator, who contains etilic alcohol of 80° with constant agitation during 72 hours to room temperature; the liquid phase of the etanolic extract separates using a centrifuge, the separated liquid is transferred to a jacketed tank, with constant agitation adds maltodextrin to him, that is the support, takes to him to a temperature of 90° C and with the use of a pump it is entered to him the spray for the obtaining of the extract atomized in dust. It is come to homogenize using a tamizadora provided with mesh N° 60 obtaining a fine dust. The identification and quantification by HPLC of the bencilglucosinolates present in the atomized extract use like movable phase acetic nitrile: metanol: water (25:25:50) and octilsilane column 5 um (125 mm x 4,6 mm), the time of retention as much for the standard of the bencilglucosinolate as for the sample was of 9,55 minutes, the amount of bencilglucosinolates in the atomized extract of the optimized process was of 0,475 g%, whereas for the common process he were 0,219 g%. The methodology offers a high specificity for the extraction of bencilglucosinolate present in Lepidium peruvianum Chacón (maca).
Tesis
SOUSA, EDGAR PAULINO DE. "Clonagem e caracterização de homólogos do gene Sw-5 amplificados do acesso LA 371 de Lycopersicon peruvianum (L.) Mill." Universidade Federal de Viçosa, 2005. http://www.locus.ufv.br/handle/123456789/10199.
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O gene Sw-5, membro de uma família multigênica com membros dispersos nos cromossomos 9 e 12 do tomateiro, é o principal gene de resistência a tospovírus utilizado nos programas de melhoramento de tomateiro para a indústria e para mesa. O acesso LA 371 de Lycopersicon peruvianum possui resistência de amplo espectro a tospovírus e estudos de introgressão e análise genética da resistência demonstraram que a resistência desse acesso é determinada por um gene dominante localizado no loco Sw-5 ou em um loco proximamente ligado. Estudos prévios haviam levantado a hipótese de que oligonucleotídeos que anelam nas regiões correspondentes ao início da ORF codificada por Sw-5 e na região 5’ deste gene poderiam amplificar seqüências do loco Sw-5 e de um loco proximamente ligado. Esta hipótese foi confirmada neste trabalho. Utilizando esses oligonucleotídeos foram amplificados e clonados dois genes homólogos ao Sw-5, denominados de homólogo 1 e homólogo 2, a partir de DNA extraído de uma planta resistente a tospovírus denominada EP-1 derivada do acesso LA 371. As proteínas putativas codificadas por esses homólogos apresentam 92,94 % de similaridade diferindo em 82 aminoácidos. A proteína 2 é mais similar à proteína codificada pelo gene Sw-5 (99,28%) sugerindo que o homólogo 2 é responsável pela resistência a tospovírus encontrada em LA 371. Essas seqüências foram transferidas para o vetor binário pBI121 e experimentos de transformação encontram-se em andamento visando à comprovação da função desses homólogos na resistência de LA 371 a tospovírus.
The gene Sw-5, member of a multigenic family with members dispersed in tomato chromosomes 9 and 12, is the most used tospovirus resistance gene in tomato breeding programs. The Lycopersicon peruvianum accession LA 371 has a broad-spectrum toposvirus resistance. Genetic analysis has demonstrated that a dominant gene located in the Sw-5 locus or in a closely linked locus is responsible for tospovirus resistance of this accession. Prior studies suggested that oligonucleotides with complementary sequences corresponding to the terminal regions of the Sw-5 ORF would be able to amplify sequences from the Sw-5 locus and from one closely linked locus. This hypothesis was confirmed in this work. DNA extracted from a tospovirus resistant plant called EP-1, derived from the accession LA 371, was used as template for PCR amplification. The PCR product was cloned and restriction analysis revealed that two Sw-5 homologous sequences, called homologous 1 and homologous 2, had been cloned. The putative protein codified by these homologous display 92.94% of similarity for each other, differing in 82 amino acids. The protein coded by homologous 2 is more similar to Sw-5 protein (99.28%) suggesting that this homologous is responsible for the LA 371 tospovirus resistance. These sequences were transferred to the binary vector pBI121 and transformation experiments are in progress aiming to test this hypothesis.
Dissertação importada do Alexandria
SARDÓN, Luis F. Lens. "Estudo galênico de formas plásticas (gel e creme) do extrato bruto de Maca, Lepidium peruvianum CHACON sp. nov.Luis F Lens Sardón." Universidade Federal de Pernambuco, 2012. https://repositorio.ufpe.br/handle/123456789/10275.
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As infecções do trato genital são a causa mais frequente de consulta ginecológica (50-70 % das queixas). Acredita-se que todas as mulheres sexualmente ativas já tiveram pelo menos um episódio de vaginose bacteriana e/ou vulvovaginite. O aumento da resistência das bactérias aos antibióticos convencionais tem estimulado intensos esforços para desenvolver novos agentes antimicrobianos eficazes contra essas bactérias e fungos. O objetivo deste estudo é realizar a produção de formas farmacêuticas plásticas de ação tópica dermatológica e vaginal a partir do extrato seco do hipocotiledon, de Lepidium peruvianum CHACON sp. Nov. = Lepidium meyenii WALP., popularmente conhecida como MACA; esta é uma planta herbácea, bienal ou anual; distribuída basicamente nos Andes Centrais do Peru, em altitudes que vão de 3.500 até 4.500 metros acima do nível do mar. Inicialmente foi feita a identificação botânica e a obtenção de extrato aquoso. Foi realizada a pesquisa de toxicidade da planta; através do teste de toxicidade aguda em camundongos com o extrato bruto, realizado por via intraperitoneal e via oral, a toxicidade foi testada até uma dose de 4.500 mg/kg; e posteriormente foi verificada a ação frente a fungos e bactérias patógenas, comprovando se a ação sobre fungos. Ensaios farmacotécnicos revelaram que o extrato se incorpora perfeitamente nas formulações escolhidas. A determinação das características físicoquímicas dos produtos acabados mostrou que a manipulação não altera qualitativa nem quantitativamente o extrato. Estudos preliminares indicam que as perspectivas de sua utilização nas Indústrias, Cosmética e de Medicamentos são ótimas, pois a utilização destas novas formulações leva a uma diminuição do uso de métodos convencionais, que não raro acarretam ações indesejáveis ao organismo humano.
Books on the topic "Peruvianum"
Vite transnazionali?: Peruviani e Peruviane a Milano. Milano, Italy: FrancoAngeli, 2009.
Find full textBennett, David E. Icones Orchidacearum Peruviarum. [New York?]: Privately published by A. Pastorelli de Bennett, 1993.
Find full textEl desafío de la solidaridad: Condiciones de vida y de trabajo de los migrantes peruanos en Chile. San Isidro, Lima, Perú: Organización Internacional del Trabajo, 2004.
Find full textMariano Eduardo de Rivero y Ustariz. Peruvian antiquities. New York: G.P. Putnam, 1985.
Find full textHerrada, Zósimo Roberto Morillo. El nuevo derecho consular peruano: El derecho de las comunidades peruanas en el exterior. San Isidro, Lima, Perú: Fundación Academia Diplomática del Perú, Academia Diplomática del Perú Javier Pérez de Cuéllar, 2011.
Find full textAnton, Ferdinand. Ancient Peruvian textiles. New York, N.Y: Thames and Hudson, 1987.
Find full textPeru. Peruvian petroleum legislation. [Lima]: Public Relations Dept., PETROPERU, 1988.
Find full textBook chapters on the topic "Peruvianum"
Azimova, Shakhnoza S., and Anna I. Glushenkova. "Lycopersicon peruvianum." In Lipids, Lipophilic Components and Essential Oils from Plant Sources, 889. London: Springer London, 2012. http://dx.doi.org/10.1007/978-0-85729-323-7_2860.
Full textBährle-Rapp, Marina. "Balsamum peruvianum." In Springer Lexikon Kosmetik und Körperpflege, 58. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-71095-0_973.
Full textPaniagua-Zambrana, Narel Y., Rainer W. Bussmann, and Carolina Romero. "Lycopersicon esculentum Mill. Lycopersicon hirsutum Dunal Lycopersicon peruvianum (L.) Mill. Solanaceae." In Ethnobotany of Mountain Regions, 1125–32. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-28933-1_177.
Full textPaniagua-Zambrana, Narel Y., Rainer W. Bussmann, and Carolina Romero. "Lycopersicon esculentum Mill. Lycopersicon hirsutum Dunal Lycopersicon peruvianum (L.) Mill. Solanaceae." In Ethnobotany of Mountain Regions, 1–9. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-319-77093-2_177-1.
Full textRatushnyak, Y. I., N. N. Cherep, and S. A. Latypov. "Somatic Hybridization Between Lycopersicon esculentum Mill. and Lycopersicon peruvianum var. dentatum Dun." In Somatic Hybridization in Crop Improvement I, 224–43. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-642-57945-5_15.
Full textWijbrandi, J., J. G. M. Vos, and M. Koornneef. "Transfer of Regeneration Capacity from Lycopersicon Peruvianum to L. Esculentum by Protoplast Fusion." In Progress in Plant Protoplast Research, 227–30. Dordrecht: Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2788-9_79.
Full textDerks, F. H. M., and C. M. Colijn-Hooymans. "Somatic Hybridization in Lycopersicon; Using Gamma-Irradiated Nicotiana Tabacum SR-1 or Lycopersicon Peruvianum." In Progress in Plant Protoplast Research, 231–32. Dordrecht: Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2788-9_80.
Full textCosta, Ana Paula P., Katia C. Scortecci, Regina Y. Hashimoto, Paula G. Araujo, Marie-Angele Grandbastien, and Marie-Anne Van Sluys. "Retrolyc1-1, a member of the Tntl retrotransposon super-family in the Lycopersicon peruvianum genome." In Transposable Elements and Genome Evolution, 65–72. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4156-7_7.
Full textPetrova, M., Z. Vulkova, A. Atanassoy, and P. Stoeva. "Characterization of the Mitochondrial Genome of Cytoplasmic Male Sterile Hybrid Between lycopersicon peruvianum Mill. and lycopersicon Pennellii Corr." In Progress in Botanical Research, 549–52. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-011-5274-7_126.
Full textHassan, Sher. "Tolerance, Resistance to Multiplication and Immunity to Tomato Yellow Top Virus and Potato Leafroll Virus in Lycopersicon Peruvianum and of Its Tomato Hybrid Progenies." In Durability of Disease Resistance, 347. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2004-3_73.
Full textConference papers on the topic "Peruvianum"
Stead, Anthony D., Robin A. Cotton, Anton M. Page, Mike D. Dooley, and Thomas W. Ford. "Visualization of the effects of electron microscopy fixatives on the structure of hydrated epidermal hairs of tomato (lycopersicum peruvianum) as revealed by soft x-ray contact microscopy." In San Diego '92, edited by Chris J. Jacobsen and James E. Trebes. SPIE, 1993. http://dx.doi.org/10.1117/12.138751.
Full textBaldwin, Guillermo, Franco Gonzales, and Carlos Perez-Santos. "First Peruvian Binoculars." In Freeform Optics. Washington, D.C.: OSA, 2017. http://dx.doi.org/10.1364/freeform.2017.jtu5a.4.
Full textPérez S., Carlos, Guillermo Baldwin, and Franco Gonzales. "First Peruvian binoculars." In International Optical Design Conference 2017, edited by Richard N. Pfisterer, John R. Rogers, Julius A. Muschaweck, and Peter P. Clark. SPIE, 2017. http://dx.doi.org/10.1117/12.2299567.
Full textSantos, Emanuela Da Anunciacão, Isis Caroline De Amorim Jambeiro, Natália Cristiane De Sousa Maia, and Lívia De Jesus Vieira. "GERMINAÇÃO DE SEMENTES DE ESPÉCIES SILVESTRES DE MANIHOT PARA MICROPROPAGAÇÃO." In I Congresso de Engenharia de Biotecnologia. Revista Multidisciplinar de Educação e Meio Ambiente, 2021. http://dx.doi.org/10.51189/rema/1333.
Full textVela´squez Marti´nez, Fernando A., and Dimas Y. Robles Robles. "Management System for the Identification Risk, Qualification and Remediation of Geo-Hazards in Rocks and Residual Soils of the Camisea NG and NGL Pipelines." In 2008 7th International Pipeline Conference. ASMEDC, 2008. http://dx.doi.org/10.1115/ipc2008-64514.
Full textMohamed, Marina, Nazihah Ismail, Syafiza Saila Samsudin, and Noor Azimah Ibrahim. "Mathematical nature’s pattern in Zinnia Peruviana." In PROCEEDING OF THE 25TH NATIONAL SYMPOSIUM ON MATHEMATICAL SCIENCES (SKSM25): Mathematical Sciences as the Core of Intellectual Excellence. Author(s), 2018. http://dx.doi.org/10.1063/1.5041579.
Full textMinaya, Jaime, Piero Marini, Gonzalo Alfaro, Johan Tanta, Fernando Socualaya, Ricardo Temoche, and Jose Diaz. "Work in progress: Peruvian curricular meshes." In 2019 IEEE World Conference on Engineering Education (EDUNINE). IEEE, 2019. http://dx.doi.org/10.1109/edunine.2019.8875768.
Full textCarrillo-Gil, A., and A. Carrillo-Acevedo. "Geotechnical Risk in the Peruvian Andes." In Georisk 2011. Reston, VA: American Society of Civil Engineers, 2011. http://dx.doi.org/10.1061/41183(418)97.
Full textMendoza G., Pedro, Maximiliano Arroyo Ulloa, and Vincenzo Naso. "The Bioceanic Amazon Corridors: An Opportunity for Development of Sustainable Energy System." In ASME 2004 Power Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/power2004-52040.
Full textMartín Canales Romero, Juan. "Peruvian University Consortium in the QB50 Project." In SpaceOps 2012. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2012. http://dx.doi.org/10.2514/6.2012-1275952.
Full textReports on the topic "Peruvianum"
Bebbington, Anthony, Martin Scurrah, and Claudia Bielich. Mapping current Peruvian social movements. Unknown, 2008. http://dx.doi.org/10.35648/20.500.12413/11781/ii203.
Full textWilliams, R., and V. Genetti. Plutonium in Peruvian Soil Project Report. Office of Scientific and Technical Information (OSTI), March 2008. http://dx.doi.org/10.2172/926403.
Full textGales, Phillip. The Peruvian Military's Role in Sustaining Democracy. Fort Belvoir, VA: Defense Technical Information Center, February 2000. http://dx.doi.org/10.21236/ada388466.
Full textMolina, Oswaldo, Jocelyn Olivari, and Carlo Pietrobelli. Global Value Chains in the Peruvian Mining Sector. Inter-American Development Bank, October 2016. http://dx.doi.org/10.18235/0000468.
Full textKroetz, Kailin, James N. Sanchirico, Elsa Galarza Contreras, David Corderi Novoa, Nestor Collado, and Elaine W. Swiedler. Examination of the Peruvian Anchovy Individual Vessel Quota (IVQ) System. Inter-American Development Bank, December 2016. http://dx.doi.org/10.18235/0000598.
Full textLuzes, Marta, Luisa Feline Freier, and Denisse Pierola. A Study of Municipal Best Practices in Three Peruvian Cities. Inter-American Development Bank, October 2020. http://dx.doi.org/10.18235/0002823.
Full textD'Alessio, Fernando. Personal Attributes Profiles based on Clustered Leadership Behaviors in Peruvian Managers. CENTRUM Católica Graduate Business School, September 2012. http://dx.doi.org/10.7835/ccwp-2012-09-0001.
Full textBrain, Kelsey. The Transnational Networks of Cultural Commodities: Peruvian Food in San Francisco. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.2249.
Full textArce, R., and R. Porro. Energy policies, forests and local communities in the Ucayali region, Peruvian Amazon. World Agroforestry Centre (ICRAF), 2010. http://dx.doi.org/10.5716/wp16793.pdf.
Full textKatherine Markham, Katherine Markham. Amphibian Vulnerability to Artisanal and Small-Scale Gold Mining in the Peruvian Amazon. Experiment, April 2016. http://dx.doi.org/10.18258/6995.
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