149,221 research outputs found
Monitoring der Kindergesundheit in (und nach) der COVID-19-Pandemie. Teil 2 – Aktuelle Ergebnisse zur Entwicklung von Indikatoren der Kindergesundheit bei hochfrequenter Beobachtung im KIDA-Erhebungszeitraum
Mit der Studie „Kindergesundheit in Deutschland aktuell“ (KIDA) untersuchte das Robert Koch-Institut von Februar 2022 bis Juni 2023, wie sich die Gesundheit und das Gesundheitsverhalten von Kindern und Jugendlichen im Alter von 3 bis 17 Jahren im Verlauf der COVID-19-Pandemie darstellten und entwickelten. In der Studie wurden über einen Zeitraum von 16 Monaten fortlaufend Informationen zu Gesundheit, Wohlbefinden und Gesundheitsverhalten sowie Daten zur Kenntnis und Nutzung von Beratungs- und Versorgungsangeboten erhoben. Dabei wurden Eltern von Kindern im Alter von 3 bis 15 Jahren und Jugendliche im Alter von 16 bis 17 Jahren zunächst telefonisch befragt (n = 6.992). Im Anschluss haben 2.896 Teilnehmende zusätzlich an einer vertiefenden Online-Befragung teilgenommen. Die so gewonnenen Daten wurden im Kontext zu den jeweils vorherrschenden Pandemiebedingungen (z.B. Eindämmungsmaßnahmen, altersspezifische Inzidenzen, Testkonzepte) interpretiert und die Ergebnisse vierteljährlich in Form schriftlicher Berichte auf der Website des Robert Koch-Instituts veröffentlicht. KIDA wird finanziert aus Mitteln des Bundesministeriums für Gesundheit. Der vorliegende zweite Teil des 4. Quartalsbericht stellt dar, wie sich verschiedene Merkmale der Kinder- und Jugendgesundheit im zeitlichen Verlauf der telefonischen KIDA-Erhebung von Februar 2022 bis April 2023 entwickeln. Zum Start der Erhebung kennzeichneten vergleichsweise sehr hohe Neuerkrankungsraten unter Kinder und Jugendlichen das Infektionsgeschehen, die im Verlauf der Erhebung zurückgingen und nach einer Sommerwelle im Jahr 2022 bis zum Ende des Erhebungszeitraums kontinuierlich weiter absanken. Während des Erhebungszeitraums gab es zunächst mäßige Einschränkungen des öffentlichen Lebens, die im Verlauf der Erhebung abnahmen und dann ganz wegfielen
Xenapates goergeni Koch 2007, sp. n.
Xenapates goergeni sp. n. Figs 5, 12 Etymology: This species is named after Dr Georg Goergen, head of the Biodiversity Centre (IITAC). Description: Female. Head black; mandible reddish brown with pale yellow basal half; clypeus and labrum pale yellow. Thorax black with following pale yellow: ventrolateral markings of pronotum, postspiracular sclerite, mesosternum and ventral part of mesopleuron, anterior margin of mesepimeron; mesopleuron between blackish dorsal and pale yellow ventral part with a very inconspicuously whitish longitudinal strip. Legs yellow; coxae whitish, distal tarsomeres brown. Wings uniformly infuscate; costa, subcosta, stigma and rest of venation brownish black. Abdomen yellow; sawsheath black, valvifer 2 yellow. Head from above slightly narrowed behind eyes. Antenna 1.7× as long as maximum head width. POL:OOL=1.0:1.8–1.9 (1.8 HT). Postocellar area: width:length = 1.0:1.4; lateral furrows conspicuously convex. Frontal area with very obtuse anterior crossridge, medially interrupted; lateral furrows convex, ending scrobiculate at anterior crossridge, lateral tubercles inconspicuously developed; interantennal groove very shallow, crescentshaped. Vertex, frons and gena impunctate, strongly shining. Base of mandible scarcely sculptured, moderately shining. Pubescence on vertex brown, about as long as diameter of a lateral ocellus. Thorax nearly impunctate, strongly shining.Abdomen without microsculpture, strongly shining. Serrulae 9–11 as in Fig. 5. Length: 7.8–8.0 mm. Male. Unknown. Holotype:^“ TOGO: Kloto, forest area, Oct. 2001, leg.: G. Goergen ”; [red] “ Holotypus, Xenapates goergeni sp. n., det.: F. Koch ” (MNHU). Paratype: 1^same data as holotype (IITAC). Host plant: Unknown. Distribution: Togo (Fig. 1). Remarks:In the Xenapates key by Koch (1995), the new species is similar to X. pectoralis Forsius, 1927. The anterior crossridge of the frontal area of X. pectoralis, however, is not medially interrupted, and the wings are very slightly bicoloured with a more infuscate apical and a paler basal half. Additionally, X. goergeni differs in the very indistinct or not visible whitish longitudinal strip on the mesopleuron. This character is, however, also variable in X. pectoralis, from mostly conspicuously white to rarely indistinctly visible. For accurate identification it is therefore essential to examine the shapes of the serrulae, which are distinctly different (Figs 5, 6). Furthermore, X. pectoralis is distributed in south-eastern Africa (Fig. 1). It is very difficult to describe the variability of the new species based on only two specimens. Nevertheless, the distal flagellomeres of the paratype are dirty whitish ventrally, the metascutellum is yellow laterally, and the crossridge of the frontal area is more conspicuously interrupted.Published as part of Koch, Frank, 2007, Three new species and three new records of Xenapates from Togo (Hymenoptera: Symphyta: Tenthredinidae), pp. 111-120 in African Invertebrates 48 (2) on pages 114-115, DOI: 10.5281/zenodo.766790
Dataset for "The Hazel Stem Borer, Agrilus pseudocoryli (Coleoptera: Buprestidae), as a Pest of Hybrid Hazelnuts"
Survey of damage from the hazel stem borer (Agrilus pseudocoryli) and presence of eastern filbert in a hybrid hazelnut orchard in Minnesota.
Little to no curation was performed on this dataset. DRUM can not verify the completeness or quality of the documentation, nor the FAIRness of the included files. Please contact the author with any questions.University of Minnesota - Louise T. Dosdall FellowshipUnited States Department of Agriculture - Specialty Crop Research Initiative 2019-51181-30025University of Minnesota - Bell Museum Award (James Wilkie Fund)Perish, Patrick K; Lindsey, Amelia R I; Koch, Alexa; Aukema, Brian H; Shanovich, Hailey N. (2023). Dataset for "The Hazel Stem Borer, Agrilus pseudocoryli (Coleoptera: Buprestidae), as a Pest of Hybrid Hazelnuts". Retrieved from the Data Repository for the University of Minnesota (DRUM), https://hdl.handle.net/11299/254160
Liotrigona kinzelbachi Koch 2010, sp. n.
Liotrigona kinzelbachi sp. n. Figs 3C, 4 Etymology: The species is dedicated to Prof. em. Dr Ragnar Kinzelbach, whom the author wishes to thank for his support and inspiration during his zoological studies in Rostock. Description: Worker. Total body length ranging from 2.15 mm to 2.58 mm. Forewing length 1.96– 1.78 mm; pterostigma length 0.35–0.39 mm; head width 0.95–1.01 mm (Fig. 3); scutal width 0.69–0.87 mm. Colour: Head black except brown clypeus; labrum and mandibles amber, often with reddish tinge; scape amber to brown and flagellum brown; thorax black to dark brown; abdomen variable from dark brown to amber, dorsal site darker than ventral site; legs with brown coxa, amber trochanter, dark brown femur, amber tibia (hind tibia brown) and amber tarsus. Queen and male. Unknown. Comparison:Very similar to L. bitika and L. madecassa, but intermediate in size between the two. Distinguishable from both species by a combination of forewing length, pterostigma length, head width and scutal width (see Table 1). Also distinguishable from other species of Malagasy Liotrigona by its COI sequence (GenBank accession numbers HQ012826-HQ012834). Holotype (Fig. 4): MADAGASCAR: ca 60 km northeast of Morondava city in Menabe region [20°03'S: 44°39'E] (ARC-PPRI). Paratypes (2 workers): MADAGASCAR: same data as holotype (ARC-PPRI). Distribution: Dry deciduous forest of Kirindy, Menabe region, Western Madagascar.Published as part of Koch, Hauke, 2010, Combining morphology and DNA barcoding resolves the taxonomy of Western Malagasy Liotrigona Moure, 1961 (Hymenoptera: Apidae: Meliponini), pp. 413 in African Invertebrates 51 (2) on pages 416-418, DOI: 10.5733/afin.051.0210, http://zenodo.org/record/791372
Neacidiophora aethiopica Koch 1998
Neacidiophora aethiopica Koch, 1998 Neacidiophora aethiopica Koch, 1998 b: 87. Locus typicus: Ethiopia, Dessie. Holotype: ♂. Ethiopia, Dessie [11 °08'N 039° 38 'E], 24.VII. 1946, K. M. Guichard (BMNH). Distribution. Ethiopia. Remarks. Neacidiophora aethiopica is only known from the male. It has a body colouration similar to the one of N. athalioides; morphological differences are given under this species.Published as part of Koch, Frank, Pauly, Alain, Hora, Zewdu A. & Boevé, Jean-Luc, 2015, Sawflies of Ethiopia (Hymenoptera: Argidae, Tenthredinidae), pp. 119-155 in Zootaxa 4021 (1) on page 143, DOI: 10.11646/zootaxa.4021.1.5, http://zenodo.org/record/23483
Xenapates nigripes Koch 1995
Xenapates nigripes Koch, 1995 Xenapates nigripes Koch, 1995: 401. Locus typicus: Ethiopia, Ghedu. Holotype: ♂. Ethiopia: Ghedu [= Ghedo, 09°00'N 037° 26 'E], 7500 ft, 28.V. 1946, leg. K. M. Guichard (BMNH). Distribution. Ethiopia.Published as part of Koch, Frank, Pauly, Alain, Hora, Zewdu A. & Boevé, Jean-Luc, 2015, Sawflies of Ethiopia (Hymenoptera: Argidae, Tenthredinidae), pp. 119-155 in Zootaxa 4021 (1) on page 145, DOI: 10.11646/zootaxa.4021.1.5, http://zenodo.org/record/23483
Xenapates nigrifrons Koch 2012
Xenapates nigrifrons Koch, 2012 Xenapates nigrifrons Koch, 2012 c: 25. Locus typicus: Kenya, Rift Valley Province. Holotype: 1 ♀. Kenya: Rift Valley Province, Marich Pass Field Studies Centre [01° 23 ’N 035° 27 ’E], 25–29.VII. 1999, W. J. Pulawski & J. S. Schweikert (CASC). Ethiopian material. Near Lake Chamo, 05° 56 ’N 037° 32 ’E, 1125 m, 21.IX. 2012, P 3633 (1 ♀), J.-L. Boevé (RBINS). This is the first record of X. nigrifrons for Ethiopia. Distribution. Ethiopia, Kenya. Remarks. Xenapates nigrifrons is a member of the X. variator species group (Koch 1995, 2012c).Published as part of Koch, Frank, Pauly, Alain, Hora, Zewdu A. & Boevé, Jean-Luc, 2015, Sawflies of Ethiopia (Hymenoptera: Argidae, Tenthredinidae), pp. 119-155 in Zootaxa 4021 (1) on page 145, DOI: 10.11646/zootaxa.4021.1.5, http://zenodo.org/record/23483
On the spider species described by L. Koch in 1882 from the Balearic Islands (Araneae)
Examination of the L. Koch collection of the Zoological Museum in Berlin allows us to propose the following new synonyms and combinations: Erigone marina L. Koch, 1882 = Oedothorax fuscus (Blackwall, 1834) n. syn.; Theridion elimatum L. Koch, 1882 = Enoplognatha diversa (Blackwall, 1859) n. syn.; Liocranum variabilis Wunderlich, 2008 = Zora inornata L. Koch, 1882 n. syn. = Liocranum inornatum n. comb.; Lycosa perspicax L. Koch, 1882 = Arctosa fulvolineata (Lucas,1846) n. syn.; Alopecosella Roewer, 1960 = Arctosa C. L. Koch, 1847 n. syn.; Lycosa subhirsuta L. Koch, 1882 = Arctosa lacustris (Simon, 1876) n. syn.; Philodromus vegetus L. Koch, 1882 = Thanatus vulgaris Simon, 1870 n. syn.; Ozyptila bicuspis Simon, 1932 = Ozyptila furcula L. Koch, 1882 n. syn.; Haplodrassus maroccanus Denis, 1956 = Drassus parvulus L. Koch, 1882 n. syn. = Haplodrassus parvicorpus (Roewer, 1951) n. comb. (replacement name); Zelotes ruscinensis Simon, 1914 = Zelotes semirufa (L. Koch, 1882) n. syn.; Phlegra simoni L. Koch, 1882 = Phlegra bresnieri Lucas, 1846 n. syn.; Trochosula conspersa (L. Koch, 1882), Lycorma fraisnei (L. Koch, 1882), Lycorma insulana (L. Koch, 1882), Arctosa misella (L. Koch, 1992) and Pirata simplex (L. Koch, 1882) are all retransferred to their original genus Lycosa stat. rev. Cheiracanthium occidentale L. Koch, 1882, Ozyptila furcula L. Koch, 1882 and Zelotes callidus (Simon, 1878) are redescribed
Neacidiophora brevifalcata Koch 1998
Neacidiophora brevifalcata Koch, 1998 (Fig. 17 A–B) Neacidiophora brevifalcata Koch, 1998 b: 97. Locus typicus: Ethiopia, Meisso. Holotype: ♂. Ethiopia, Meisso [= Mieso, 09° 13 'N 040° 45 'E], VIII.[19] 45, leg. K. M. Guichard (BMNH). Ethiopian material. Dire Dawa [09° 35 'N 041° 50 'E], 6000 ft, 17.IV. 1946 (1 ♂), leg. K. M. Guichard; Nech Sar N. P., 05° 58 ’N 037° 35 ’E, 1110 m, 19.IX. 2012, P 3631 (1 ♂), leg. J.-L.- Boevé & A. Pauly (RBINS). Distribution. Ethiopia, Kenya, Tanzania. Remarks. In the specimen from the Nech Sar N. P. the second and third anal vein (2 A+ 3 A) of the fore wing are nearly obliterated. This characteristic is known for N. brevifalcata and illustrated by Koch (1998 b: fig. 36), and it can cause specimens to be misidentified as belonging to Distega. Neacidiophora brevifalcata is known only from the male.Published as part of Koch, Frank, Pauly, Alain, Hora, Zewdu A. & Boevé, Jean-Luc, 2015, Sawflies of Ethiopia (Hymenoptera: Argidae, Tenthredinidae), pp. 119-155 in Zootaxa 4021 (1) on pages 143-144, DOI: 10.11646/zootaxa.4021.1.5, http://zenodo.org/record/23483
Athalia flavobasalis Koch 2007
Athalia flavobasalis Koch, 2007 Athalia flavobasalis Koch, 2007: 87. Locus typicus: Burundi, Munanira. Holotype: ♂. Burundi, Munanira [03°02'S 029° 25 'E], 2200 m, 01– 14.I. 1983, A. Autrique (MNHN). Ethiopian material. Lake Tana, Bahar Dar [11 ° 36 'N 037° 23 'E] (1 ♂, 1 ♀), leg. Schäuffele (SMNS); Welega pr., 1260 m, 70 km S Nekemte [ca 08° 35 'N 036° 20 'E], 05.IV. 2007 (1 ♀), leg. J. Halada (OLML); Sebeta, 08° 54 ’N 038° 35 ’E, 2165 m, 04.X. 2010, on Ajuga integrifolia flower, P 3420 (1 ♀), leg. J.-L. Boevé & A. Pauly (RBINS). Distribution. Burundi, Democratic Republic of the Congo, Ethiopia, Rwanda, Uganda. Host plant. Brassicaceae (Opitz et al. 2012). Remarks. The species was abundantly collected from 1981 to 1983 with yellow pan traps placed in potato fields in Burundi (Chevin 1985). Chevin (1985) misidentified the material as A. himantopus truncata. Athalia truncata differs from A. flavobasalis by the entirely yellow metepimeron, and in the shape of the apically subtruncate digitus (Koch 2007: fig. 9 b). The phenology of this species based on the material from Burundi is illustrated by Koch (2007), and it is concluded that the species is univoltine.Published as part of Koch, Frank, Pauly, Alain, Hora, Zewdu A. & Boevé, Jean-Luc, 2015, Sawflies of Ethiopia (Hymenoptera: Argidae, Tenthredinidae), pp. 119-155 in Zootaxa 4021 (1) on pages 133-134, DOI: 10.11646/zootaxa.4021.1.5, http://zenodo.org/record/23483
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