Academic literature on the topic 'Nymphaea in art'

Ancona, Nicoletta, Mami Azuma, and Gabriele Galasso. L'acquario e le ninfee: Dalla natura all'arte di Monet. Skira, 2021.

Lambert, Stéphane. L'adieu au paysage: Les nymphéas de Claude Monet. Différence, 2008.

1840-1926, Monet Claude, ed. Les nymphéas: Monet grandeur nature. Hazan, 2010.

Hoog, Michel. Musée de l'Orangerie: Les nymphéas de Claude Monet. 3rd ed. Réunion des musées nationaux, 2006.

Zambianchi, Claudio. La fin de son art: Claude Monet e le ninfee dell'Orangerie. F. Masoero, 2000.

Zambianchi, Claudio. La fin de son art: Claude Monet e le ninfee dell'Orangerie. F. Masoero, 2000.

Monet, Claude. Monet, water lilies. Hugh Lauter Levin, 1988.

Claudia, Beltramo Ceppi Zevi, Monet Claude 1840-1926, and Palazzo reale di Milano, eds. Monet: Il tempo delle ninfee. Giunti, 2009.

Claudia, Beltramo Ceppi Zevi, Monet Claude 1840-1926, and Palazzo reale di Milano, eds. Monet: Il tempo delle ninfee. Giunti, 2009.

l'Orangerie, Musée de, ed. Nymphéas: L'abstraction américaine et le dernier Monet. Musée d'Orsay, 2018.

Bal, Anjali, Leyland Pitt, and Michael Parent. "Monet’s, Nympheas… $11 Million; Rothko’s, White… $73 Million; My Youngest Son’s, The Burial of Our Dog Rover… Priceless!: Consumer Behavior in the Fine Art Market." In Let’s Get Engaged! Crossing the Threshold of Marketing’s Engagement Era. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-11815-4_191.

Dhang, Partho, Philip G. Koehler, Roberto M. Pereira, and Daniel D. Dye II. "Cockroaches." In Key questions in urban pest management: a study and revision guide. CABI, 2022. http://dx.doi.org/10.1079/9781800620179.0006.

"Aby Warburgs Nymphen und Schmetterlinge als Affekte." In Ars – Visus – Affectus. De Gruyter, 2016. http://dx.doi.org/10.1515/9783110474411-003.

Buckingham, Steven C. "Tick-borne disease." In Schlossberg's Clinical Infectious Disease, edited by Cheston B. Cunha. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780190888367.003.0117.

Vittum, Patricia J. "Insects and Mites: Turf Association." In Turfgrass Insects of the United States and Canada. Cornell University Press, 2020. http://dx.doi.org/10.7591/cornell/9781501747953.003.0003.

Rebora, Manuela, Gianandrea Salerno, and Silvana Piersanti. "Odonata perception is more than vision." In Dragonflies and Damselflies, 2nd ed. Oxford University PressOxford, 2022. http://dx.doi.org/10.1093/oso/9780192898623.003.0007.

Frosch, Thomas R. "Parody and Authenticity in Lolita." In Vladimir Nabokov’s Lolita. Oxford University PressNew York, NY, 2002. http://dx.doi.org/10.1093/oso/9780195150322.003.0003.

"The lake trapping was continued twice monthly from February 1991, two years after the first filling of the stage 2A reservoir, until June 1993. The trapping locality at Toonpan was essentially the same as for the 1984–85 studies except that for Big Bay was moved a few hundred metres up the incline. Because the expansion from stage 1 to 2A involved extensive clearing of marginal scrub, grassland and forest, almost total control of five mosquito species utilizing tree holes and plant axils (Aedes alboscutellaris, Aedes mallochi, Aedes purpureus, Aedes quasirubithorax) or shaded pools (Uranotaenia nivipes) occurred. The transformation of temporary wetland with ti-trees (Melaleuca spp.), lilies (Nymphoides indica, Nymphaea gigantea) and submerged plants into an unvegetated muddy foreshore similarly reduced Mansonia spp. and Coquillettidia crassipes, whose larvae depend on attachment to arenchymatous or lacunate macrophytes. Larvae of these genera have pointed reinforced tips to their siphons which are used to pierce these plants to breathe. Because of the devastating nature of the inundation and the time required for new breeding habitat to re-establish, mosquito populations increased through to the end of 1993 but the mean abundance of adult Culex annulirostris had not changed significantly from stage 1 levels. The trend for this species and for Anopheles annulipes was upward, and one can only speculate on population levels when the marginal vegetation has fully established. Due to the extensive loss of marginal vegetation and the creation of expanses of shallow muddy pools, especially towards Toonpan, Anopheles amictus and Aedes normanensis populations increased by 36-fold and 282-fold, respectively (Figure 9.2). The ramifications of this are interesting as Aedes normanensis is well recognized as a vector of Ross River virus and Murray Valley encephalitis, especially inland where Anopheles amictus (probably another species complex) has been the source of Ross River, Barmah Forest and Edge Hill viruses. Control of mosquitoes is usually directed at removal of breeding habitat (source reduction) or aimed at larvae which often aggregate in large numbers in discrete sites. Aedes normanensis is ephemeral and its desiccation-resistant eggs characteristically hatch in response to wet season rainfall filling up temporary pools. Plague numbers appear one month and may be gone the next. More accurate definition of these breeding sites, particularly at Toonpan, Antill Creek and Ross River, is required before control options can be considered. As already mentioned, the clearing process created vast expanses of bare muddy pools, particularly at the north-eastern end (e.g. Toonpan). As the lake gradually receded during the dry season, ideal breeding sites were created and populations increased through spring (from September) and also in the late wet season (March to April) when dry sites were refilled by rainfall. Thus, although the land clearing had benefits in eliminating tropical itch mites and some minor mosquito species, it probably paved the way for population growth of Aedes normanensis and Anopheles amictus. This could possibly be considered a dubious swap, although time will tell. Little is known of their biology and their flight range, the latter being of obvious importance to recreational activity at the other end of the lake. Fortunately, however, they are mainly active at night." In Water Resources. CRC Press, 1998. http://dx.doi.org/10.4324/9780203027851-32.

"Because of previous isolated reports of swimmer’s itch at the stage 1 lake, periodic surveys by sweep netting commenced in July 1990. For each of six localities covering three distinct habitat types (open bays within the lake, along the margins of permanent creeks, temporary ponds), 1 m quadrats containing all vegetation types were scoured for snails. Austropeplea snails were not present in the lake proper until February 1991, but in November 1990 they were first located in ponds along the north-east, east and south-western shorelines. Egg masses were often found attached to the undersides of nardoo (Marsilea mutica) and sometimes wrapped around the stalks and ventral surfaces of the water lily, Nymphaea gigantea. Thus its absence from the lake was attributed to the lack of established vegetation in the stage 2A lake, and from this we developed a working hypothesis that host snails were possibly vegetation-specific. Thus to facilitate recreational use, control of infected Austropeplea could be achieved by simply clearing the appropriate water plant. By July to August 1991, however, schistosome-infected Austropeplea were collected from various types of vegetation along the margins of Ross River, close to the lake. A few Amerianna and Gyraulus gilberti were found in Ti-Tree Bay contiguous with Big Bay and Round Island, which were still negative for snails. By February 1992, planorbids were present in all three habitat types, with Austropeplea in two, i.e. ponds and creeks around the lake. Until 1993, 2,365 snails were dissected to detect both patent and pre-patent Trichobilharzia infection. Four different species of snails were identified, size classed according to shell length or width using vernier calipers. Snails were crushed on a microscope slide or in a Petri dish with a few drops of water under a warm light. A heavy infection of cercariae is evident to the naked eye, but any worm-like animals were removed on to another slide, stained with two to three drops of 0.1 per cent neutral red dye, covered with a coverslip and examined microscopically. Schistosome cercariae are distinctive with their eye spots, forked tail and presence of oral and ventral suckers (see Figure 9.4). Schistosomes were recovered from 4.5 per cent and 1.7 per cent of Austropeplea and Gyraulus gilberti snails, but not from Amerianna nor Thiara. In terms of management solutions, several questions seemed paramount: • Which habitat types presented the greatest (and lowest) risk? • Which time of the year presented the greatest hazard? • Can certain indicators be used to predict infection? Statistical analysis of the presence and abundance of Austropeplea snails did not correlate with any particular vegetation type (Hurley et al. 1995) but was connected with vegetation generally. There was no clear-cut relationship with snail density and physicochemical parameters including temperature, biomass of periphyton or with percentage surface coverage. However, highest densities of Austropeplea lessoni (45/m and Amerianna." In Water Resources. CRC Press, 1998. http://dx.doi.org/10.4324/9780203027851-36.

Catianis, Irina, Gabriel Iordache, Adriana Maria Constantinescu, Ana Bianca Pavel, and Oana Dobre. "ASSESSMENT OF THE ABUNDANCE AND DISTRIBUTION OF THE EMERGENT AQUATIC VEGETATION IN THE DANUBE DELTA, ROMANIA. THE CASE STUDY OF TATARU AND UZLINA LAKES." In 22nd SGEM International Multidisciplinary Scientific GeoConference 2022. STEF92 Technology, 2022. http://dx.doi.org/10.5593/sgem2022/2.1/s11.45.

Lamonaca, Miriam. "The Roman mosaic in the Nymphaeum of Villa Giulia in Rome. Characterization of the deteriogen agents and preliminary experimentation of eco-sustainable products." In 2023 IMEKO TC4 International Conference on Metrology for Archaeology and Cultural Heritage. IMEKO, 2023. http://dx.doi.org/10.21014/tc4-arc-2023.117.

Lamonaca, Miriam. "The Roman mosaic in the Nymphaeum of Villa Giulia in Rome. Characterization of the deteriogen agents and preliminary experimentation of eco-sustainable products." In 2023 IMEKO TC4 International Conference on Metrology for Archaeology and Cultural Heritage. IMEKO, 2023. http://dx.doi.org/10.21014/10.21014/tc4-arc-2023.117.

Яйленко, В. П. "Table drinking, verses, paederastic love and other matters in the graffiti of Panticapaeum." In Древности Боспора. Crossref, 2018. http://dx.doi.org/10.25681/iaras.2018.978-5-94375-250-6.243-274.

Lokteva, D. A., and T. N. Sivkova. "HYDRACHNIDS UNIONICOLA (HALDEMAN, 1842) IN BIVALVE MOLLUSKS IN THE KAMA BASIN." In THEORY AND PRACTICE OF PARASITIC DISEASE CONTROL. VNIIP – FSC VIEV, 2025. https://doi.org/10.31016/978-5-6053355-1-1.2025.26.186-190.

Сапрыкин, С. Ю. "Эпиграфические записи Боспорского царства. Разнообразие." У Древности Боспора. Crossref, 2023. http://dx.doi.org/10.25681/iaras.2020.978-5-94375-339-8.332-357.