Relevant bibliographies by topics / Agave

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  2. Dissertations / Theses
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Academic literature on the topic 'Agave'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 January 2023

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Journal articles on the topic "Agave"

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Huang, Xing, Bo Wang, Jingen Xi, Yajie Zhang, Chunping He, Jinlong Zheng, Jianming Gao, et al. "Transcriptome Comparison Reveals Distinct Selection Patterns in Domesticated and Wild Agave Species, the Important CAM Plants." International Journal of Genomics 2018 (November 22, 2018): 1–12. http://dx.doi.org/10.1155/2018/5716518.

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Agave species are an important family of crassulacean acid metabolism (CAM) plants with remarkable tolerance to heat and drought stresses (Agave deserti) in arid regions and multiple agricultural applications, such as spirit (Agave tequilana) and fiber (Agave sisalana) production. The agave genomes are commonly too large to sequence, which has significantly restricted our understanding to the molecular basis of stress tolerance and economic traits in agaves. In this study, we collected three transcriptome databases for comparison to reveal the phylogenic relationships and evolution patterns of the three agave species. The results indicated the close but distinctly domesticated relations between A. tequilana and A. sisalana. Natural abiotic and biotic selections are very important factors that have contributed to distinct economic traits in agave domestication together with artificial selection. Besides, a series of candidate unigenes regulating fructan, fiber, and stress response-related traits were identified in A. tequilana, A. sisalana, and A. deserti, respectively. This study represents the first transcriptome comparison within domesticated and wild agaves, which would serve as a guidance for further studies on agave evolution, environmental adaptation, and improvement of economically important traits.
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Castorena-Sánchez, I., R. M. Escobedo, and A. Quiroz. "New cytotaxonomical determinants recognized in six taxa of Agave in the sections Rigidae and Sisalanae." Canadian Journal of Botany 69, no. 6 (June 1, 1991): 1257–64. http://dx.doi.org/10.1139/b91-163.

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New cytotaxonomical determinants are presented for the following taxa of Agave: (I) section Rigidae: Agave fourcroydes Lemaire (5x = 150), first karyotype; Agave angustifolia Haworth (sensu Gentry), new count (6x = 180), first karyotype; Agave angustifolia Haworth var. marginata Hort. (2x = 60); and Agave tequilana Weber, new count (2x = 60), first karyotype; (II) section Sisalanae: Agave sisalana Perrine (5x = 150), first karyotype; and (III) intersectional hybrid: Agave hybrid 11 648 new count (2x = 60), first karyotype. Chromosomes are classified and arm number, chromatin length, and variability are discussed. These results suggest (i) a speciation process via limited rearrangements and point mutations in the small chromosomes of the complement, within the euploidy level rather than karyotype diversification and (ii) a reconsideration to assign them to the 2C level of Stebbins karyotype classification. Key words: fiber agaves, karyotype analysis.
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José-Jacinto, Rocío, and Edmundo García-Moya. "Remoción cuticular ("Mixiote") y desarrollo foliar en los agaves pulqueros (Agave salmiana y A. mapisaga)." Botanical Sciences, no. 66 (May 27, 2017): 73. http://dx.doi.org/10.17129/botsci.1613.

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The pulque agaves are important cultives in the Valley of Mexico agroecosystems, some management practices have reduction of the sowing density and the farming agave areas. The purpose of this work consisted of knowing the utilization conditions of pulque agaves and evaluate agricultural practices that favor or limit the development of new leaves in Agave salinia.na. Otto ex Salm-Dyck, and Agave mapisaga. Trel., in six localities of the Valley of Mexico, during two sampling years. The results indicate that illegal practice, removing of the cuticle (« mixiote ») affects negatively the development of leaves in agaves, in contrast designated practices: «picado» and «despunte» result beneficial since they do not present meaningful changes on the number of leaves developed with respect to intact plants of the study species.
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García Martínez, Ledia Itzel, Saúl Sánchez-Mendoza, and Angélica Bautista-Cruz. "Combinación de hongos micorrízicos y fertilización fosforada en el crecimiento de dos agaves silvestres." REVISTA TERRA LATINOAMERICANA 38, no. 4 (October 11, 2020): 771–80. http://dx.doi.org/10.28940/terra.v38i4.702.

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Los hongos micorrízicos arbusculares pueden contribuir signif icativamente en la nutrición vegetal, en especial en la asimilación de fósforo (P). Los agaves silvestres son sobreexplotados debido a la producción intensiva de mezcal, ocasionando la disminución de sus poblaciones naturales. Se evaluó el efecto de la inoculación con hongos micorrízicos arbusculares comerciales y la aplicación de diferentes dosis de P sobre el crecimiento y contenido de sólidos solubles totales (SST) de dos agaves silvestres: agave tobalá (Agave potatorum Zucc) y agave coyote (Agave spp.) en condiciones protegidas. Los productos micorrízicos comerciales utilizados fueron Glomus cubense (M1) y Glumix (M2) y cuatro dosis de P: 0, 14.4, 29 y 43.5 mg kg-1. El ensayo se estableció en un experimento bifactorial 3 × 4 en un diseño completamente al azar. Las variables respuesta fueron altura de planta (AP), número de hojas (NH), diámetro de tallo (DT), volumen radicular (VR), densidad de raíces (DR), peso fresco de hoja (PFH), peso fresco de tallo (PFT), peso fresco de raíz (PFR) y SST. Con referencia al control, M2 incrementó 18.2% el NH, 53.5% el PFH, 38.1% el PFT y 36% el DT en agave tobalá; mientras en agave coyote, la AP aumentó 12% y el SST 21.3%. En agave tobalá la dosis de 43.5 mg kg-1 de P mejoró 13.2% la AP, 34.9% el PFH, 36.1% el PFT, 21.5% el DT y 20.4% el VR. En agave coyote la dosis de 29 mg kg-1 de P aumentó 16.4% la AP, 44.4% el PFT y 18.6% el DT; el SST incrementó 40% con 43.5 mg kg-1 de P y el PFH 51% con 14.4 mg kg-1 de P. En agave tobalá, M2 + 43.5 mg kg-1 de P favoreció el PFH, PFT y DT. En agave coyote, M2 + 14.4 mg kg-1 de P, M2 + 29 mg kg-1 de P y M2 + 43.5 mg kg-1 de P promovieron la AP, DT y SST. La promoción en el crecimiento de ambos agaves se debió a la aplicación individual de micorrizas y P más que a la interacción de ambos factores.
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RODRÍGUEZ, WILLIAM DAVID, JOSÉ LUIS NAVARRETE-HEREDIA, MIGUEL VÁSQUEZ-BOLAÑOS, RAMÓN RODRÍGUEZ-MACÍAS, GUILLERMO ARIEL BRICEÑO-FÉLIX, JUANA MARÍA CORONADO BLANCO, and ENRIQUE RUÍZ-CANCINO. "Insects associated with the genus Agave spp. (Asparagaceae) in Mexico." Zootaxa 4612, no. 4 (May 31, 2019): 451. http://dx.doi.org/10.11646/zootaxa.4612.4.1.

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We present a synthesis of the insects reported associated with plants of the genus Agave L. (Asparagaceae) in Mexico, through a detailed review of published records. This work includes two checklists: the first include the species of insects collected in Agave, name of their hosts, their geographical distribution, notes on their biology and, references. Natural enemies of the insects associated with agaves are included in the second checklist with their geographical distribution, insect species host and, references. We found 273 species of insects collected in different Agave species. These species belong to 63 families and 7 orders. The orders of insects with the highest number of species are Coleoptera with 118 species and, Hemiptera with 65. The natural enemies of insects collected in agaves were 98 species from 18 families and 6 orders. The genera Aphytis and Encarsia (Hymenoptera: Aphelinidae) grouped the largest number of natural enemies of insects that were recorded in Agave with 15 and 10 species, respectively. Insects were collected from 42 species of Agave, of which 25 are endemic to Mexico. This study provides biological information on Mexican insects captured in Agave and, their natural enemies. The need for the conservation of these plants and associated insects is highlighted.
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Figueredo-Urbina, Carmen Julia, Gonzalo D. Álvarez-Ríos, Mario Adolfo García-Montes, and Pablo Octavio-Aguilar. "Morphological and genetic diversity of traditional varieties of agave in Hidalgo State, Mexico." PLOS ONE 16, no. 7 (July 9, 2021): e0254376. http://dx.doi.org/10.1371/journal.pone.0254376.

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The agaves are plants of cultural importance which have been used by humans for about 10,000 years and about 40 specific uses. The most culturally and economically important of those uses are for the production of fermented (pulque) and distilled beverages (mescal). Pulque continues to be produced in nearly all of Mexico, and the agaves used for this purpose have shown domestication syndrome. We carry out an ethnobotanical, morphological, and genetic analysis of the traditional varieties of pulque agave used in the production of aguamiel (agave sap) and pulque in the state of Hidalgo. We did semi-structured interviews, free listings, and tours with 11 agave managers. We analyzed morphology and studied genetic diversity and structure using nuclear microsatellites. We found wild-collected, tolerated, transplanted, and cultivated varieties of agave. This comprised 19 traditional varieties of pulque agave, 12 of them in production during the study, which corresponded to the species Agave americana, A. salmiana y A. mapisaga and five intraspecific entities. The varieties were grouped morphologically according to a management gradient; the wild-collected varieties were the smallest, with more lateral teeth and a larger terminal spine. The cultivated varieties clearly exhibited domestication syndrome, with larger plants and smaller dentition. The expected heterozygosity (He) of the varieties ranged from 0.204 to 0.721. Bayesian clustering suggested the existence of three genetic groups, both at the level of traditional varieties of pulque agaves and for management categories, a result that matches multivariate clustering. Pulque producers in the studied localities maintain high agrobiodiversity. The cultivated varieties exhibit domestication syndrome, as has been reported for other species of the genus with the same selection purposes. Our results support the hypothesis of a decrease in genetic diversity in crops compared to wild-growing agaves, which seems to be due to vegetative propagation, among other factors.
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María de Jesús, Ramírez-Ramírez, N. Alejandra Mancilla-Margalli, Meza-Álvarez Lucía, Turincio-Tadeo Ramón, Pena Doralinda Guzmán-de, and Avila-Miranda Martin Eduardo. "Epidemiology of Fusarium agave wilt in Agave tequilana Weber var. azul." Plant Protection Science 53, No. 3 (May 28, 2017): 144–52. http://dx.doi.org/10.17221/142/2016-pps.

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Fusarium oxysporum is reported as the principal causal agent limiting production of Agave tequilana Weber var. azul, but frequent isolation of F. solani, and symptoms typical of F. solani as a pathogen like severe reddish coloured root rot and loss of soil anchorage are frequently associated with diseased agaves. Inoculations of agave plantlets with F. solani induced typical agave root rot symptoms in greenhouse trials. The incidence of both pathogens was determined molecularly with specific primers in the ITS2 sequence. Dispersion patterns of agave wilt, determined in plantations of different age, indicated a tendency to produce aggregated patterns over time as the disease spread from the initial symptomatic plant to adjacent plants. Although both fungi were isolated from agave diseased plants, and in spite of the higher percentage of detection and root rot symptoms, it is concluded that F. solani may have a greater impact in agave wilt.
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Maué, Hermann, and Hilke Steinecke. "Historische Darstellungen blühender Agaven." Der Palmengarten 80, no. 2 (December 30, 2016): 105–9. http://dx.doi.org/10.21248/palmengarten.326.

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Die Amerikanische Agave (Agave americana) war in vorlinnéscher Zeit unter dem Namen Aloe americana bekannt. Wenn Agaven in herrschaftlichen Gärten zur Blüte kamen, war das eine große Attraktion. Blühende Exemplare der sog. Aloe americana wurden auf Gemälden, Kupferstichen und Medaillen abgebildet. Einige Beispiele hierfür werden vorgestellt.
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Hackman, Dana A., Nicole Giese, John S. Markowitz, Adam McLean, Steven G. Ottariano, Chris Tonelli, Wendy Weissner, Shannon Welch, and Catherine Ulbricht. "Agave (Agave americana)." Journal of Herbal Pharmacotherapy 6, no. 2 (January 2006): 101–22. http://dx.doi.org/10.1080/j157v06n02_09.

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Hackman, Dana, Nicole Giese, John Markowitz, Adam McLean, Steven Ottariano, Chris Tonelli, Wendy Weissner, Shannon Welch, and Catherine Ulbricht. "Agave (Agave americana)." Journal Of Herbal Pharmacotherapy 6, no. 2 (November 20, 2006): 101–22. http://dx.doi.org/10.1300/j157v06n02_09.

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Dissertations / Theses on the topic "Agave"

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Huber, John Anthony. "Exploring the Possibility of Photosynthetic Plasticity in Agave sensu lato." BYU ScholarsArchive, 2016. https://scholarsarchive.byu.edu/etd/6403.

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Crassulacean acid metabolism (CAM) provides desert plants with distinct advantages over the C3 and C4 photosynthetic pathways in harsh climates where water is scarce. CAM is, however more metabolically costly than C3 or C4 photosynthesis, and some plants, such as Mesembryanthemum crystallinum, facultatively utilize CAM when water is abundant, and water conservation unnecessary. In such situations, these plants behave akin to a C3 plant when photosynthesizing. CAM is divided into four phases, with each phase displaying unique metabolic processes. Certain changes, including changes in the timing of CO2 fixation, stable carbon isotope ratios, and tissue malic acid content accumulation patterns can indicate that a plant has shifted from CAM to C3 photosynthesis. Such shifts have been observed to be regulated primarily by water availability and ontogenic development. While facultative CAM is well documented in species like Mesembryanthemum crystallinum, and it has not been studied extensively in Agave with the exception of Agave deserti, and Agave angustifolia. A better understanding of this phenomenon would apply to the agricultural growth of this genus. This study aimed to trigger C3 to CAM shifts in Agave sensu lato species, in order to expand upon the findings of previous studies, and better understand the prevalence of facultative CAM expression in the genus. Gas exchange and stable carbon isotope measurements were taken from 2-month-old, 10-month-old, and mature agaves grown in controlled ocnditions. Tissue acid content measurements were taken from mature plants. Despite the Agave sensu lato species in this study being subjected to moisture applications ranging from dry to saturated, we were unable to observe any distinct shifts from CAM to C3 photosynthesis in any of the species tested for both seedlings and mature plants. Diel net CO2 fixation rates also increased with age, and water applications for seedlings, and decreased with heavy irrigation in mature plants. Stable carbon isotope ratios revealed that some carbon in the plant tissues was fixed by rubisco, and that some species (Polianthes tuberosa, Prochnyanthes mexicana) had carbon isotope ratios of a C3 plant, but these ratios did not change with different irrigation treatments. Malic acid accumulation remained typical of CAM plants for the species tested as well, with one exception in Polianthes tuberosa. As such, we conclude that the Agave sensu stricto species tested in this study are obligate CAM plants, and that they perform poorly mature individuals are over-watered. Additionally, the Agave sensu lato species P. mexicana, and P. tuberosa appear to be C3 plants given the results of this study.
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Burgess, Tony L. "Agave Adaptation to Aridity." University of Arizona (Tucson, AZ), 1985. http://hdl.handle.net/10150/554187.

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To show features of Agave taxa adapting to arid habitats, comparative studies at three taxonomic levels in the genus are presented. There is a brief review of Agave physiology and some aspects of recent evolution are discussed. Comparisons among species groups within the genus show several traits differentiating desert species from related taxa. Related taxa in the Deserticolae group are examined over a transect in Baja California, revealing patterns linking leaf shape to climate. In a comparison of leaves of A. desert] Engelm. along an elevational gradient, high intrapopulation variation obscures differences between the sites. Results are summarized as hypotheses to be tested.
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Starr, Greg. "Two Recent Agave Introductions." University of Arizona (Tucson, AZ), 1998. http://hdl.handle.net/10150/554322.

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Dobyns, Henry F. "Piman Indian Historic Agave Cultivation." University of Arizona (Tucson, AZ), 1988. http://hdl.handle.net/10150/609107.

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The lands occupied by northern Piman Indians yet display remains of old ways of life, the hallmark being ruins of massive "casa grande" style architectural complexes within puddled adobe walled compounds. Vestiges of "rockpile" fields occur on desert bajadas that seem to have little potential for traditional hispanic or anglo agriculture. Evidence has accumulated that critical population pressures once exerted heavy demands on the food supply in this region, with resultant internecine strife and competition, the massive walled architectural complexes functioning as defensible storehouses for food that was harvested from the resource area controlled or exploitable by the inhabitants. The rockpile fields were used for agricultural production of the sweet foodplant Agave, using an innovative technology that made use of agriculturally marginal land (see Desert Plants Volume 7, pp. 107 -112, 100). The European encounter of Pimans occurred to the south long before it occurred to the north, at a time when ways of life were rapidly changing. A rare glimpse of southern Piman life about 1613 by Rev. Andrés Pérez de Ribas presents an historic picture of Agave cultivation by people living in houses with massive puddled adobe walls. This Piman way of life at that time in the southern region is altogether consistent with the vestiges of what seems to have been the same lifestyle in the north. Old World diseases brought a general collapse of Native American populations; the pressures that generated casa grande style architecture, earth defensive walls, and Agave cultivation in Piman territory diminished, a terminal date for the complex more likely to have been after A.D. 1613 than the traditional date of "Classic Hohokam" demise about A.D. 1450. Introduction of Old World cultivars high in sugar (melons, peaches, apricots, quinces, pears, apples, sugar cane) also reduced Piman demand for sweet pulp of Agave. Watermelons were already substituting as a functional equivalent of Agave by 1698 among northern Pimans. Both the casa grande style ruins and the rockpile fields were abandoned by the time European civilization reached the northern Pimans. Both have been classified as "Hohokam" by archaeologists, using the plural of the Piman language word meaning "all used up" or "defunct."
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Kelly, Jack, and Rob Grumbles. "Cactus, Agave, Yucca and Ocotillo." College of Agriculture and Life Sciences, University of Arizona (Tucson, AZ), 2009. http://hdl.handle.net/10150/144766.

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Cruz-Ramos, Carlos A., Roger Orellana, and Manuel L. Robert. "Agave Research Progress in Yucatan." University of Arizona (Tucson, AZ), 1985. http://hdl.handle.net/10150/554189.

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The Center for Scientific Research of Yucatan carries out research aimed at solving some of the problems posed by the henequen industry in northern Yucatan. This paper briefly describes CICY's main research lines related to the hard fiber-producing agaves: a) taxonomic studies are being pursued to obtain a better understanding of the flora of the region; b) tissue culture techniques are used for the genetic improvement of agaves, and c) studies of composite materials and chemical substances derived from Henequen wastes are being carried out as possible alternatives to cordage production.
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Adams, Karen R., and Rex K. Adams. "How Does Our Agave Grow? Reproductive Biology of a Suspected Ancient Arizona Cultivar, Agave murpheyi Gibson." University of Arizona (Tucson, AZ), 1998. http://hdl.handle.net/10150/554320.

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More than one species of Agave may have been cultivated by ancient farmers in Arizona. The arguments for this include apparent range extensions, burned Agave parts in archaeological roasting features, archaeological sites with in situ agaves thought to be relics of past human management, and limited molecular evidence. The reproductive biology of a single Agave murpheyi Gibson, one of the suspected cultivated species, is documented here in detail. After nine years of growth in a residential backyard in Tucson, Arizona, a flowering stalk rapidly elongated to 4.73 m (15.5 ft) during both daytime and nighttime hours from January through May. Daily records kept for much of that time revealed the stalk averaged 4.69 cm (1.85 in) of growth per day. Maximum growth spurts correlated with both high daily temperature and mean daily temperature. Lateral branches, eventually totaling twenty-two, began developing during March in the upper portion of the flowering stalk. Over a period of five weeks from late May to late June, these lateral branches flowered with normal-looking flowers, attracted a variety of potential pollinators, but produced no mature fruit. Instead, by the summer monsoon season of July and August, the mother plant had produced 359 miniature agaves or bulbils in these upper side branches. The bulbils appeared to arise from enlargements of tissue in the vicinity of the former flowers. Without releasing on their own, these bulbils became water-stressed and had to be forcibly removed a year later. By this time they were quite variable in fresh weight and size. Once planted, they rehydrated and immediately began to grow. This single plant shares aspects of bulbil production with three Agave murpheyi plants observed by others.
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Johnson, Roxane Jeannette. "Effects of fire on Agave palmeri." Thesis, The University of Arizona, 2001. http://hdl.handle.net/10150/291511.

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I investigated the effects of prescribed fire on Agave palmeri , an important seasonal food source of the federally Endangered bat, Leptonycteris curasoae yerbabuenae. Three different treatments were randomly assigned to plots containing agaves within a burn unit: plots were burned with extant fuel, plots were left unburned, and plots were burned with an augmentation of fuel. Agaves were surveyed before the fires, immediately after the fires, and one and two years after the fires. Mortality and survivorship with the fuel load, agave size and the type of clusters in which the agaves grew. Agaves near mesquite and acacia trees or dead, dried agaves experienced higher mortality than agaves growing elsewhere. Agaves in plots with added fine fuels also had higher rates of mortality. One year post-fire, mortality was low in all treatments and recruitment was higher on augmented and burned plots than on unburned plots. Two years post-fire, mortality of small Agave palmeri was associated more strongly with rainfall than with fire treatment, while mortality of larger height classes of agaves exhibited a delayed response to fires.
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McDaniel, Robert G. "Field Evaluations of Agave in Arizona." University of Arizona (Tucson, AZ), 1985. http://hdl.handle.net/10150/554208.

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Four agave species (Agave americana L., A. murpheyi E Gibson, A. palmeri Engelm., and A. parryi Engelm.) have been evaluated in a four-year study conducted at four Arizona field locations. Survival data, growth rates, approximate water requirements, and insect predation have been analyzed under Arizona field conditions. All species showed good survival at the Marana location, with Agave americana exhibiting the most rapid growth increment, averaging fresh weight gains of 70 to 110 kg per plant in the four-year period, with minimal supplemental irrigation. Analysis of carbohydrates in these plants showed an average 50% sugars on a dry weight basis. Projected growth parameters and biomass accumulation data are presented.
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Pinkava, Donald J., and Mark A. Baker. "Chromosome and Hybridization Studies of Agave." University of Arizona (Tucson, AZ), 1985. http://hdl.handle.net/10150/554212.

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Interspecific hybridization, paleopolyploidy, secondary polyploidy, and vegetative reproduction appear to play significant roles in the evolution of Agave and certain related genera. First chromosome counts are reported for Hesperaloe funifera and 10 taxa of Agave including two triploid and one diploid putative hybrids. All of our counts for Yucca, Hesperaloe, and Agave are in agreement with the base number, x = 30, which comprises a complement of five very large chromosomes and 25 medium to small chromosomes. All published chromosome counts of Agave have been tabulated and the roles of hybridization and polyploidy are assessed. Secondary polyploidy occurs in 26 of 48 (54.2 %) reported taxa of Agave; as yet only one-fourth of the total taxa are chromosomally known.
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Books on the topic "Agave"

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Cetea, Doina. Agave. Cluj-Napoca: Editura Dacia, 1985.

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León, Alberto P. Agavel: Producto de la fermentación del agave. Mexico: [s.n.], 1987.

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Pál, Farkas. Agave: [versek]. Budapest: Magvető, 1987.

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Remarkable agaves and cacti. New York: Oxford University Press, 1994.

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Nobel, Park S. Environmental biology of agaves and cacti. Cambridge: Cambridge University Press, 1988.

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García-Marín, Patricia Colunga. En lo ancestral hay futuro: Del tequila, los mezcales y otros agaves. Edited by Centro de Investigación Científica de Yucatán. Mérida, Yucatán, México: Centro de Investigación Científica de Yucatán, 2007.

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As alças de Agave. Natal, RN: Sebo Vermelho Edições, 2008.

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ill, Jernigan E. W., ed. Agave blooms just once. Tucson: Harbinger House, 1989.

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Hargous, Sabine. Mexique, l'homme et l'agave. Paris: L'Harmattan, 1993.

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Titze, Marion. Das Haus der Agave: Erzählungen. Stuttgart: Klett-Cotta, 1997.

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Book chapters on the topic "Agave"

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Prentner, Angelika. "Agave." In Bewusstseinsverändernde Pflanzen von A–Z, 25–29. Vienna: Springer Vienna, 2010. http://dx.doi.org/10.1007/978-3-211-99229-6_3.

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Torres-García, Ignacio, América Minerva Delgado-Lemus, Alejandro Casas, Gonzalo D. Álvarez-Ríos, Selene Rangel-Landa, Raymundo Martínez-Jiménez, Carmen Julia Figueredo-Urbina, et al. "Agave americana L. Agave angustifolia Haw. Agave atrovirens Karw. ex Salm-Dyck. Agave asperrima Jacobi. Agave bovicornuta Gentry. Agave cupreata Trel. & A. Berger. Agave hookeri Jacobi. Agave inaequidens K. Koch. Agave karwinskii Zucc. Agave kerchovei Lem. Agave lechuguilla Torr. Agave mapisaga Trel. Agave marmorata Roezl Agave maximiliana Baker Agave montana Villareal Agave potatorum Zucc. Agave rhodacantha Trel. Agave salmiana Otto ex Salm-Dyck Agave scaposa Gentry Agave tequilana F.A.C. Weber Agave victoriae-reginae A. Berger Asparagaceae." In Ethnobotany of the Mountain Regions of Mexico, 1–52. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-319-77089-5_26-1.

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Bährle-Rapp, Marina. "Agave rigida." In Springer Lexikon Kosmetik und Körperpflege, 13. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-71095-0_249.

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Sastry, K. Subramanya, Bikash Mandal, John Hammond, S. W. Scott, and R. W. Briddon. "Agave demeesteriana." In Encyclopedia of Plant Viruses and Viroids, 37. New Delhi: Springer India, 2019. http://dx.doi.org/10.1007/978-81-322-3912-3_1050.

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Lim, T. K. "Agave sisalana." In Edible Medicinal And Non-Medicinal Plants, 111–21. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-7395-0_6.

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Davis, Sarah C., and Stephen P. Long. "Sisal/Agave." In Handbook of Plant Breeding, 335–49. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4939-1447-0_15.

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Thiede, J. "Agave AGAVACEAE." In Monocotyledons, 1–291. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-56324-3_111-1.

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Thiede, J. "Agave AGAVACEAE." In Monocotyledons, 21–311. Berlin, Heidelberg: Springer Berlin Heidelberg, 2020. http://dx.doi.org/10.1007/978-3-662-56486-8_111.

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Bährle-Rapp, Marina. "Agave Americana Extract." In Springer Lexikon Kosmetik und Körperpflege, 13. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-71095-0_248.

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Khare, C. P. "Agave americana Linn." In Indian Medicinal Plants, 1. New York, NY: Springer New York, 2007. http://dx.doi.org/10.1007/978-0-387-70638-2_61.

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Conference papers on the topic "Agave"

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Dooley, Rion, Steven R. Brandt, and John Fonner. "The Agave Platform." In PEARC '18: Practice and Experience in Advanced Research Computing. New York, NY, USA: ACM, 2018. http://dx.doi.org/10.1145/3219104.3219129.

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Mondragón, Margarita, Luis E. Elizalde, and Victor Rejón. "Silicon in Agave Angustifolia Haw Leaves." In 7th World Congress on Mechanical, Chemical, and Material Engineering. Avestia Publishing, 2021. http://dx.doi.org/10.11159/iccpe21.112.

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Santos, Ana Laíse do Nascimento dos. "AGAVE SISALANA AS A BIOMASS SOURCE FOR ETHANOL PRODUCTION." In VI Simpósio Internacional de Inovação e Tecnologia. São Paulo: Editora Blucher, 2020. http://dx.doi.org/10.5151/siintec2020-agave.

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Rosli, Noor Afizah, Ishak Ahmad, Ibrahim Abdullah, and Farah Hannan Anuar. "Physical properties of agave cellulose graft polymethyl methacrylate." In THE 2013 UKM FST POSTGRADUATE COLLOQUIUM: Proceedings of the Universiti Kebangsaan Malaysia, Faculty of Science and Technology 2013 Postgraduate Colloquium. AIP Publishing LLC, 2013. http://dx.doi.org/10.1063/1.4858741.

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Suvitha, L. "Fabrication and Evaluation of Agave Americana Leaf Fiber." In Proceedings of the First International Conference on Combinatorial and Optimization, ICCAP 2021, December 7-8 2021, Chennai, India. EAI, 2021. http://dx.doi.org/10.4108/eai.7-12-2021.2314639.

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Dooley, Rion, and Joe Stubbs. "Dynamically Provisioning Portable Gateway Infrastructure Using Docker and Agave." In the 2014 Annual Conference. New York, New York, USA: ACM Press, 2014. http://dx.doi.org/10.1145/2616498.2616561.

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Teles BARROSO, Luana, Anthony Côrtes GOMES, Diego da Paixão ALVES, and Rogério Gomes PÊGO. "QUALIDADE DE PLANTAS DO GÊNERO Agave FERTIRRIGADAS COM NPK." In IV Simpósio ABC: Argentina-Brasil-Cuba. Seropédica, Rio de Janeiro: Even3, 2020. http://dx.doi.org/10.29327/ivsimposioabc.238126.

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Escobar Flores, Jonathan Gabriel, and y. Sarahi Sandoval. "Artificial intelligence to model the potential distribution of Agave durangensis." In IGARSS 2022 - 2022 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2022. http://dx.doi.org/10.1109/igarss46834.2022.9883767.

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Wang, Liya, Peter Van Buren, and Doreen Ware. "Architecting a Distributed Bioinformatics Platform with iRODS and iPlant Agave API." In 2015 International Conference on Computational Science and Computational Intelligence (CSCI). IEEE, 2015. http://dx.doi.org/10.1109/csci.2015.121.

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"Adsorption of Perfluoroalkyl Compounds onto Microporous Agave Sisalana Activated Carbon Fibre." In Nov. 18-19, 2019 Johannesburg (South Africa). Eminent Association of Pioneers, 2019. http://dx.doi.org/10.17758/eares8.eap1119299.

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Reports on the topic "Agave"

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Linger, Steve P., and Carleton James Coffrin. Demonstration of Ciclops and Electric Distribution Damage in the AGAVE Web Application (slides). Office of Scientific and Technical Information (OSTI), October 2016. http://dx.doi.org/10.2172/1330640.

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Johnston, R. K., and Skip Albertson. Current Meter Study for Agate, Port Orchard, and Rich Passages. Fort Belvoir, VA: Defense Technical Information Center, August 2005. http://dx.doi.org/10.21236/ada517512.

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Kottkamp, Scott, Vincent Santucci, Justin Tweet, Jessica De Smet, and Ellen Starck. Agate Fossil Beds National Monument: Paleontological resources management plan (sensitive version). National Park Service, August 2020. http://dx.doi.org/10.36967/nrr-2278097.

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Kottkamp, Scott, Vincent Santucci, Justin Tweet, Jessica De Smet, and Ellen Starck. Agate Fossil Beds National Monument: Paleontological resources management plan (public version). National Park Service, September 2020. http://dx.doi.org/10.36967/nrr-2278685.

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Tronstad, Lusha. Aquatic invertebrate monitoring at Agate Fossil Beds National Monument: 2019 data report. National Park Service, April 2022. http://dx.doi.org/10.36967/nrds-2293128.

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Abstract:
Monitoring ecosystems is vital to understanding trends over time and key to detecting change so that managers can address perturbations. Freshwater streams are the lifeblood of the surrounding landscape, and their health is a measure of the overall watershed integrity. Streams are the culmination of upland processes and inputs. Degradation on the landscape as well as changes to the stream itself can be detected using biota living in these ecosystems. Aquatic invertebrates are excellent indicators of ecosystem quality because they are relatively long-lived, sessile, diverse, abundant and their tolerance to perturbation differs. Aquatic invertebrates were monitored at three sites along the Niobrara River at Agate Fossil Beds National Monument in 2019 completing 23 years of data using Hester-Dendy and Hess samplers. Hess samplers are artificial multi-plate samplers suspended in the water column to allow invertebrates to colonize and Hess samples collect invertebrates in a known area on natural substrate and vegetation. We identified 45 invertebrate taxa from four phyla (Annelida, Arthropoda, Mollusca, Nematoda) using both samplers in the Niobrara River (Appendix A and B). Hester-Dendy samplers collected 4 taxa not found in Hess samples and Hess samples collected 17 taxa not collected with Hester-Dendy samplers. Hess samples captured more (91%) than Hester-Dendy samples (62%). Crustacea, Diptera and Ephemeroptera were the most abundant groups of invertebrates collected in the Niobrara River. The proportion of Insecta, Annelida, Trichoptera and Diptera differed between Hester-Dendy and Hess samples (p < 0.05). EPT richness, proportion EPT taxa and Hilsenhoff’s Biotic Index (HBI) (p < 0.0001) differed between sampler types, but taxa richness, taxa diversity and evenness (p > 0.29) did not. We collected the highest density of invertebrates at the Agate Middle site. Agate Spring Ranch had the lowest taxa richness and HBI, and the highest proportion of EPT taxa. HBI at the sites ranged from 4.0 to 6.3 (very good to fair from Hilsenhoff 1987) using the Hester-Dendy and 5.2 to 6.9 (good to fairly poor from Hilsenhoff 1987) using the Hess sampler.
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M., Monnerat, and Tchatchou B. Foresterie urbaine et agroforesterie pour l'adaptation et l'atténuation à Lukolela. Center for International Forestry Research (CIFOR), 2014. http://dx.doi.org/10.17528/cifor/005065.

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Rosse, Anine. Water quality monitoring for Agate Fossil Beds National Monument: 2017 data report. National Park Service, August 2022. http://dx.doi.org/10.36967/2294071.

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Rosse, Anine. Water quality monitoring for Agate Fossil Beds National Monument: 2020 data report. National Park Service, August 2022. http://dx.doi.org/10.36967/2294090.

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A., Angelsen, Streck C., Peskett L., Brown J., and Luttrell C. Quy mô nào là phù hop cho REDD?: Ket qua cua nhung cách tiep can quoc gia, d a phuong và long ghép. Center for International Forestry Research (CIFOR), 2012. http://dx.doi.org/10.17528/cifor/003734.

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CIFOR. La Gestion collaborative adaptative peut nous aider à faire face au changement climatique. Center for International Forestry Research (CIFOR), 2008. http://dx.doi.org/10.17528/cifor/002635.

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