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Статті в журналах з теми "Oribatid fauna"
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RYABININ, NIKOLAY A., DONG LIU, MEIXIANG GAO, and DONG-HUI WU. "Checklist of oribatid mites (Acari, Oribatida) of the Russian Far East and Northeast of China." Zootaxa 4472, no. 2 (September 10, 2018): 201. http://dx.doi.org/10.11646/zootaxa.4472.2.1.
Повний текст джерелаАнотація:
The present paper reviews the taxonomic studies of the mite suborder Oribatida in the Russian Far East South and Chinese North-East Territories. At present, 746 species of oribatid mites are registered in China, including 175 species in the soils of Northeast China. In the Russian Far East, there were 605 species of oribatids, including 344 species in the south of the Far East. The fauna of the oribatid mites of the Northeast of China and the south of the Russian Far East has 446 species and subspecies representing 190 genera and 80 families. 72 species of oribatid are common for both territories. The modern fauna of the oribatid mites of the Northeast of China and the south of the Far East was formed as a result of prolonged interaction between the boreal and palaearchaearctic faunas. The oribatid fauna of this region is distinguished by the presence of a large number of endemics, some of which are relics of the late Tertiary time and which can be considered as autochthonous. The checklist includes data from more than 100 locations of this enormous region. In addition, a short climatic and historical review of oribatid mites study is presented.
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Maślak, Magdalena, and Gabriela Barczyk. "Oribatid mites (Acari, Oribatida) in selected caves of the Kraków-Wieluń Upland (southern Poland)." Biological Letters 48, no. 1 (January 1, 2011): 107–16. http://dx.doi.org/10.2478/v10120-011-0011-y.
Повний текст джерелаАнотація:
Oribatid mites (Acari, Oribatida) in selected caves of the Kraków-Wieluń Upland (southern Poland) This paper describes and compares the species composition and community structure of the oribatid mite fauna of 5 caves in the Kraków-Wieluń Upland (Wyżyna Krakowsko-Wieluńska). We also compare oribatid communities in 3 chosen caves with oribatid communities in the soil and litter (leaves, dead wood, bat guano) in the vicinity of the cave entrances. Three hypotheses were tested: (1) oribatid communities from the soil and litter near the caves differ from the communities inhabiting caves; (2) the composition of oribatid communities depends on cave size; (3) the cave communities strongly depend on microhabitat quality and diversity. We collected 1112 adult oribatids from caves and 838 from the soil and litter near the caves. Oribatid communities in the caves were different from the soil communities. Litter, guano and dead wood were the microhabitats that affected oribatid communities significantly. In the other cave microhabitats (soil and mud), oribatids were infrequent. Cave size affected the oribatid community structure.
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Leonov, Vladislav D., and Anna A. Rakhleeva. "The first report on oribatid mites in tundra belts of the Lovozersky Mountains on the Kola Peninsula, Russia." Acarologia 60, no. 2 (April 15, 2020): 301–16. http://dx.doi.org/10.24349/acarologia/20204369.
Повний текст джерелаАнотація:
The fauna of oribatid mites (Acari, Oribatida) in the mountain tundra on the Kola Peninsula (Russia) is still poorly studied. The main aim of this research is to obtain initial data on the fauna and abundance of oribatid mites of the Lovozersky Mountains. We investigated five plots, including three lichen tundra plots, one dwarf shrub tundra plot and one wetted tundra plot in one of the largest mountain massifs of the Kola Peninsula — the Lovozersky Mountains. Multidimensional scaling and discriminant function analysis were used to identify some trends in the fauna and abundance of species on the explored plots. The abundance of oribatid mites in the lichen tundra reached 23,680 ind./m2. In the dwarf shrub tundra, this value is over three times higher — up to 81,160 ind./m2, which is comparable with the oribatid mite abundance of forest habitats. The minimum values were discovered in wetted tundra (6,200 ind./m2). A total of 71 species, 38 genera, and 24 families of oribatid mites were found during the course of this study. Eight species of Oribatida have been added to the fauna of the Kola Peninsula. A significant difference was observed in the structure of oribatid faunas of the explored habitats. The occurrence in samples and relative abundance of Mycobates sarekensis, Oribatula amblyptera, Tectocepheus velatus and Carabodes labyrinthicus increased in lichen tundra compared to dwarf shrub tundra. Species of Suctobelbidae and Oppiidae were higher in occurrence and relative abundance in dwarf shrub tundra compared to lichen tundra. The occurrence and relative abundance of Trimalaconothrus angulatus, T. maior and Platynothrus peltifer prevailed in wetted tundra as compared to automorphic tundra habitats. The family Suctobelbidae was represented by a large number of species, while the family Ceratozetidae showed a small number of species in the discovered fauna. According to the literature, these features of the fauna are unusual for tundra. A low diversity of Ceratozetidae, a high diversity of Suctobelbidae and high abundance of oribatid mites in dwarf shrub tundra may be explained by the ambivalent nature of the oribatid community in the explored region, which combines boreal and arctic features due to marine climate.
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Hushtan, Habriel, та Kateryna Hushtan. "Approbation of the software complex "Biodiversity of Ukraine" on the example of oribatid mites (Аcari: Оribatida) of Transcarpathia". Proceedings of the State Natural History Museum, № 37 (1 січня 2022): 155–60. http://dx.doi.org/10.36885/nzdpm.2021.37.155-160.
Повний текст джерелаАнотація:
The paper considers some features of the web resource "Biodiversity of Ukraine" for the analysis of collections and literature data on the example of oribatid mites of Transcarpathia. Possibilities are investigated for analysis of the spatial distribution of oribatids in terms of georegions of the study area. Their faunal similarity was determined using the Sorensen and Jaccard indexes integrated into the web resource. The territorys have been identified, which are promising for further studies of the fauna and ecology of oribatid mites. The purpose of our work was to test some features of the web resource "Biodiversity of Ukraine" on the example of Transcarpathian oribatids. This approach for the analysis of the diversity of oribatid mites was made for the first time. 273 records representing 129 species of oribatid mites were made for the Transcarpathian lowland. 154 records for 98 species were made for the Vulkanichno-intermountaindells oblast. 507 records for 183 species of oribatids were integrated for Polonynsko-Chornohirska region. 42 finds of 37 species were made for the Marmarosh massive. 114 records of 96 species of oribatids were integrated for the Transcarpathian part of Gorgany massive. It is established that a number of mountain massifs remain completely unexplored in terms of oribatids: Vyhorlat-Hutynskyi, Velykyi Dil, Tupyi and Verkhovynskyi. The latter remains unexplored not only within Transcarpathia but within the entire Verkhovynskyi Watershed range. All these areas are promising in the study of not only taxonomic diversity, but also the ecological characteristics of oribatid mites. The indicators of Sorensen and Jaccard indexes were counted. The value of these indicators depends on the ecological conditions of specific georegions and the degree of studien for oribatid mites. The perspective expediency of using the web-resource "Biodiversity of Ukraine" for comparison of fauna of oribatid mites of different georegions is established. After the integration of more complete information about oribatid mites into the database of the web resource "Biodiversity of Ukraine" it will be expedient to make a faunal comparison of georegions not only of Transcarpathia but also of other territories. The work was performed within the scientific theme: "Estimation of the biotic diversity of model groups of Arthropoda of the Ukrainian Carpathians with the use of modern information technology" (0120U101162).
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Rojas, Aldo Bernal, Gabriela Castaño-Meneses, José G. Palacios-Vargas, and Norma E. García-Calderón. "Oribatid mites and springtails from a coffee plantation in Sierra Sur, Oaxaca, Mexico." Pesquisa Agropecuária Brasileira 44, no. 8 (August 2009): 988–95. http://dx.doi.org/10.1590/s0100-204x2009000800030.
Повний текст джерелаАнотація:
The objective of this work was to compare the oribatid mite and springtail communities in three plots with different soil use - Coffee (CP), secondary vegetation or fallow fields (acahual, A) and a cloud mountain forest (CMF) - within a coffee plantation located in Santa Maria Huatulco, Oaxaca State, Mexico. In each plot 20 samples (10 of soil, 10 of litter) were taken and processed in Berlese funnels. The extracted fauna was preserved in 70% ethanol. A total of 3,031 oribatid mites belonging to 33 species, and 1,177 specimens of springtails belonging to 43 species, were collected. The number of species recorded was: 27 at CP (14 oribatids; 13 springtails), 44 at A (19 oribatids; 25 springtails) and 62 at CMF (32 for each group). A total of 26 oribatid and 27 springtail species was found in the soil, and 25 oribatid and 32 springtail species were found in the litter. The most abundant species were the oribatids Rostroztes foveolatus (Haplozetidae), Tectocepheus sp. (Tecocepheidae), Karenella sp. (Oppidae), Atropacarus (Hoplophorella) cf. fonseciai (Phthiracaridae), Epilohmannia pallida americana (Epilohmannidae), and the springtails Ceratophysella cf. gibbosa (Hypogastruridae), Mesaphorura sp. (Tullbergidae) and Proisotoma cf. minuta (Isotomidae). Fourteen families and 18 species of Oribatida species and 5 families and 34 species of Collembola were recorded for the first time for the State.
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Horváth, Edit, Eszter Lazányi, Lujza Mahunka-Papp, and Sándor Mahunka. "Oribatid mites of Madagascar (Acari: Oribatida)." Opuscula Zoologica 54 (2023): 91–157. http://dx.doi.org/10.18348/opzool.2023.4.91.
Повний текст джерелаАнотація:
Around 350 Oribatid mite species are listed from Madagascar, with their synonyms and distribution data. New records are provided for 29 species from which three species are new to the fauna of Madagascar: Acrotritia reticulata (Mahunka, 1988), Malaconothrus (Malaconothrus) cf. monodactylus (Michael, 1888) and Parasuctobelba subcomplexa (Balogh & Mahunka, 1968). Notophthiracarus puylaerti Niedbała, 2001 is excluded from the fauna of Madagascar due to erroneous citation.
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Skubała, Piotr. "Microhabitats and oribatid fauna: comparison of 2 sampling approaches." Biological Letters 53, no. 1 (June 1, 2016): 31–47. http://dx.doi.org/10.1515/biolet-2017-0005.
Повний текст джерелаАнотація:
AbstractOribatid fauna highly varies among habitats, but different microhabitats within a habitat are also characterized by different mite species. The main goal of the research was to compare the observed structure of an oribatid community when samples were collected at random from the soil-litter layer of 0-10 cm in depth (standard approach) and selectively from 6 types of available microhabitats (complex approach). Samples were taken within a small plot (10 m × 10 m) in a forested area of the Silesian Park (Chorzów, south Poland). Overall, 2642 specimens of Oribatida belonging to 62 species were collected in 66 samples. The structure of the oribatid community observed by means of the 2 sampling approaches was completely different. The abundance and species richness of oribatid mites collected from 6 microhabitats were significantly higher than in the soil-litter layer alone. Results of this study show that random collecting of only soil-litter samples may reduce the evaluation of species richness in a study area by 40%. Each of the studied microhabitats supported a peculiar oribatid fauna.
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Murvanidze, M., E. Kvavadze, L. Mumladze, and T. Arabuli. "Comparison of Earthworms (Lumbricidae) and Oribatid Mite (Acari, Oribatida) Communities in Natural and Urban Ecosystems." Vestnik Zoologii 45, no. 4 (January 1, 2011): e-16-e-24. http://dx.doi.org/10.2478/v10058-011-0021-6.
Повний текст джерелаАнотація:
Comparison of Earthworms (Lumbricidae) and Oribatid Mite (Acari, Oribatida) Communities in Natural and Urban Ecosystems This study investigates earthworm and oribatid mite communities in urban, semi-natural and natural ecosystems of Tbilisi (Georgia). Ten species of earthworms and 100 species of oribatid mites were registered in 45 soil samples. Two species of oribatid mites, Microzetes auxilaris Grandjean, 1936 and Multioppia laniseta Moritz, 1966, are new for the Caucasian fauna. We hypothesized that species number and abundance of invertebrate animals tend to decrease from natural to urban ecosystems. The hypothesis was supported only partially. Number of species of oribatid mites and earthworms decreased together with increase of urbanization, whereas abundance showed no significant changes due to high density of stress tolerant and ubiquitous species in urban sites. Accordingly, species abundance is considered to have minor indicatory value. Our studies support ecological "time-hypothesis" in a way that older (natural) sites were presented with more diverse fauna than recent (urban) ones. Statistical analyses showed that studied ecosystems should be grouped in two rather than three categories: in urban and natural ones.
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Seniczak, Anna, Torstein Solhøy, Stanisław Seniczak, and Arguitxu De La Riva-Caballero. "Species composition and abundance of the oribatid fauna (Acari, Oribatida) at two lakes in the Fløyen area, Bergen, Norway." Biological Letters 47, no. 1 (January 1, 2010): 11–19. http://dx.doi.org/10.2478/v10120-009-0014-0.
Повний текст джерелаАнотація:
Species composition and abundance of the oribatid fauna (Acari, Oribatida) at two lakes in the Fløyen area, Bergen, Norway Oribatid communities from the edges of two lakes in the Fløyen area, Bergen, Norway, were compared in June 2005. The lower lake, Blåmansvannet (412 m a.s.l.), is surrounded by spruce forest, while the ‘Higher Lake’ (513 m a.s.l.), is above the tree line. Both lakes have a low pH and their edges are dominated by Sphagnum mosses. The abundance of total mites, as well as of Oribatida, were almost 2-fold higher at the ‘Higher Lake’ (51 510 and 51 160 ind./m2, respectively), while species diversity was lower than at Blåmansvannet. On the shore of Blåmansvannet, the eudominant (20% < D ≤ 40%) species was Trimalaconothrus maior, while Liochthonius peduncularis, Limnozetes ciliatus, and Nanhermannia cf. coronata were dominant (10%< D ≤ 20%). At ‘Higher Lake’, the eudominant species was Limnozetes ciliatus, which reached a 4-fold higher abundance (15 930 ind./m2) than at Blåmansvannet, and dominant species were Liochthonius alpestris, Nanhermannia cf. coronata, and Platynothrus punctatus. At both lakes, juveniles made up about 30% of all oribatids. Four species are new to Norway: Ceratoppia sexpilosa, Liochthonius alpestris, Liochthonius peduncularis, and Trhypochthoniellus longisetus.
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Klimek, Andrzej, Bogusław Chachaj, and Leszek Kosakowski. "Influence of sewage sludge composts with straw or ash on oribatid mites (Acari, Oribatida) from pine forest litter in laboratory conditions." Biological Letters 48, no. 1 (January 1, 2011): 19–27. http://dx.doi.org/10.2478/v10120-011-0002-z.
Повний текст джерелаАнотація:
Influence of sewage sludge composts with straw or ash on oribatid mites (Acari, Oribatida) from pine forest litter in laboratory conditionsIn a substrate obtained from municipal sewage sludge composts, the C:N ratio was decreased during the 12-month experiment. The amount of forest litter (layer 1 or 2 cm thick), used for fauna introduction, did not influence significantly the mean abundance of oribatid mites in sewage sludge compost. Oribatid mites tolerated compost alone or with straw, but were negatively influenced by addition of wood-ash. Abundance of oribatid mites in compost alone was increased from the 3rdmonth, and its maximum occurred in the 10thmonth. Abundance of oribatid mites in compost with straw was clearly increased since the 10th-12thmonth of the experiment. Generally the abundance of oribatid mites was mainly affected byRamusella mihelcici, which was most abundant in compost alone and with straw (maximum abundance was above 100 000 individuals · m-2). However, species diversity of the mites was very low at the end of the experiment.
Дисертації з теми "Oribatid fauna"
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Vu, Quang Manh, Duy Trinh Dao, Hai Tien Nguyen, Huy Tri Nguyen, Thu Hien Lai, Tra My Ha, and Thi Duyen Do. "Systematic and zoogeographical characteristics of the oribatid mite fauna (Acari: Oribatida) of Vietnam." Technische Universität Dresden, 2016. https://tud.qucosa.de/id/qucosa%3A32615.
Повний текст джерелаАнотація:
The article is a synthesis of the studies on oribatid mites carried out in Vietnam during the period of 1980-2013, and is based on the oribatid materials obtained throughout the country. The oribatid mite fauna (Acari: Oribatida) of Vietnam is diversified, and has high specialization. It is diverse by the number of superfamilies, families, genera and species recorded. However, the number of genera per family, as well as the number of species and subspecies per genus, is not high. 43.75% and 37.50% of the total 64 families and subfamilies consist of one and of 2-3 genera, respectively. The only one
family Oppiidae Grandjean, 1954 consists of 23 genera. The majority of the genera, 68.10% of the total, are represented by one species. The only two genera are represented by more than 10 species, namely Galumna Heyden, 1826 and Pergalumna Grandjean, 1936, with 13 and 11 species, respectively. The main zoogeographical characteristics of the oribatid mite fauna of Vietnam are the Oriental species, representing 60.30% of the total number. It also includes the elements of the Palaearctic – Oriental (12.2%), the Cosmopolitan (10.6%), the Afrotropical (Ethiopical) – Oriental (6.9%), the Australian – Oriental (5.0%), the Neotropical – Oriental (3.8%), the Nearctic – Oriental (0.9%), and the Pacific - Oriental (0.3%).Để đánh giá cấu trúc phân loại và đặc điểm địa động vật của khu hệ ve giáp Việt Nam (Acari: Oribatida), trên cơ sở mẫu vật nghiên cứu thu từ toàn lãnh thổ quốc gia, công trình đã tổng hợp và phân tích các kết quả nghiên cứu về ve giáp trong giai đoạn 1980-2013. Khu hệ động vật ve giáp Việt Nam có tính chuyên biệt cao, và rất đa dạng về số lượng họ, giống và loài xác định được. Tuy nhiên số lượng giống trong 1 họ, cũng như số lượng loài trong 1 giống lại không cao. 43,75% và 37,50% của 64 họ và phân họ, tương ứng chỉ xác định được có 2 và 3 giống. Duy nhất có họ Oppiidae Grandjean, 1954 ghi nhận được 23 giống. 68,10% tổng số giống, chỉ xác định được 1 loài. Duy nhất có 2 giống ghi nhận được hơn 10 loài, là Galumna Heyden, 1826 và Pergalumna Grandjean, 1936, tương ứng có 13 và 11 loài. Đặc điểm địa động vật cơ bản của khu hệ ve giáp Việt Nam là tính chất Đông phương (Oriental), với 60,30% tổng số loài xác định được. Tính chất địa động vật của nó còn bao gồm các yếu tố sau: Cổ bắc - Đông phương (Palaearctic-Oriental, 12,2% tổng số loài xác định được), Toàn cầu (Cosmopolite, 10,6%), Nhiệt đới Phi châu - Đông phương (Afrotropical (Ethiopical)-Oriental, 6,9%), Úc châu - Đông phương (Australian-Oriental, 5,0%), Tân nhiệt đới - Đông phương (Neotropical-Oriental, 3.8%), Vùng cực - Đông phương (Nearctic-Oriental, 0.9%), và Thái Bình Dương - Đông phương (Pacific-Oriental, 0,3%).
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La, France Martin. "Zu den Auswirkungen experimenteller Waldneugründungs- und Waldumbaumaßnahmen auf die saprophage Invertebratenfauna an extrem immissionsgeschädigten Kammlagenstandorten des Osterzgebirges (Sachsen): Oligochaeta: Enchytraeidae, Lumbricidae; Acari: Oribatida; Insecta: Collembola: Bodenzoologisch-ökologische Untersuchungen." Doctoral thesis, Technische Universität Dresden, 2002. https://tud.qucosa.de/id/qucosa%3A24201.
Повний текст джерелаАнотація:
The effects of reafforestation with seedlings of spruce, birch, mountain-ash, beech and larch, partially in combination with liming and removal of the topsoil layer before planting, on the community of saprophagous invertebrates (lumbricids, enchytraeids, oribatids, collembolans) were examined. The study area was located on plateau sites of the eastern Ore Mountains (Saxonia, Germany). Investigations were carried out on study sites exposed to high sulphur dioxide immissions and reforested 3 respectively 10 years ago. Invertebrates were sampled by the extraction of soil cores and by the ?electro-octett-method? (lumbricids). Additionally, the ?minicontainer method? was used to investigate decomposition rates of different types of litter. On the control area, a diedback spruce stand, the decomposer community showed high adaptations to the acidic soil substrate and was dominated by few enchytraeid species. Long-termed loss of tree shelter, liming and topsoil removal before planting resulted in a severe decline of most saprophagous species. However, changes in invertebrate community pattern due to different plantations were not found. A comparison of leaf and needle litter decomposition rates resulted in the following order: birch (k = 0.50) > mountain-ash (0.40) > spruce (0.30) >> larch (0.12). Considering all investigated taxa, the metabolic decomposing capacity of the larch litter reached 39 %, that the spruce litter 54 % of the foliage litter results.Anläßlich des kompletten Ausfalls der Fichte in den extrem immissionsbelasteten Kammlagen des Osterzgebirges (Sachsen) wurden im Rahmen eines interdisziplinären Verbundprojektes verschiedene Waldbaukonzepte hinsichtlich ihrer Einflüsse auf die saprophage Invertebratenfauna (Enchytraeidae, Lumbricidae, Oribatida, Collembola) untersucht. Zur Disposition standen Verfahren zur Waldneugründung (Kulturparzellen mit Reihenpflanzung von Birke, Eberesche oder Fichte; zusätzlich waldbaulich unbeeinflußte Sukzessionsparzellen) und zum Waldumbau (Kulturparzellen mit Reihenpflanzung von Buche oder Lärche nach Abtrieb und flächigem Oberbodenabschub). Ein absterbender Fichtenreinbestand in fortgeschrittener Auflösung diente als Referenz- bzw. Korrelationsmaßstab. Die Erfassung der Mesofauna erfolgte über die Extraktion von Stechrohrproben. Lumbriciden wurden mit der Elektrooktett-Methode aufgenommen. Neben der flächenbezogenen Datenerfassung wurden 1.200 mit Blattstreu von Birke, Eberesche, Fichte und Lärche befüllte Minicontainer über 19 Monate auf einer Sukzessionsparzelle exponiert, um substratspezifische Abbaugeschwindigkeiten zu ermitteln und faunistische Sukzessionsverläufe zu studieren. Die Referenzfläche zeichnete sich durch eine stark enchytraeendominierte Zersetzergemeinschaft aus, die deutliche Anzeichen einer kalkungsbedingten Überprägung erkennen ließ. Der Enchytraeenanteil an den potentiellen Umsatzleistungen der untersuchten Destruententaxa (berechnet über metabolische Äquivalenzwerte) lag bei über 90 %. Hiervon ausgehend zeigten die Zersetzergemeinschaften der Versuchsanlagen "Waldneugründung" und "Waldumbau" stark divergierende Entwicklungsrichtungen. Als ausschlaggebende Faktoren konnten Schirmverlust, Kalkung und Oberbodenbeseitigung wahrscheinlich gemacht werden. Dagegen waren Einflüsse der unterschiedlichen Kulturbaumarten kaum nachzuweisen. Die streuspezifischen Dekompositionsgeschwindigkeiten unterschieden sich wie folgt: Birke (k = 0,50) > Eberesche (0,40) > Fichte (0,30) >> Lärche (0,12). Diese vergleichsweise geringen Abbauraten stehen überwiegend mit dem rauhen Montanklima in Zusammenhang. Enchytraeen besiedelten alle Streutypen zügig, während Collembolen vor allem die Ebereschenstreu verzögert aufsuchten und mit geringster Dichte bevölkerten. Oribatiden zeigten die geringste Besiedlungsgeschwindigkeit und hatten wie die Enchytaeen in der Laubstreu signifikant höhere Wohndichten. Nur Steganacarus spinosus zeigte eine besondere Affinität für Nadelstreu. Das metabolische Leistungspotential des Destruentenbesatzes der Lärchenstreu erreichte 39 %, das der Fichtenstreu 54 % der Laubstreuresultate.
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Toul, Zdeněk. "Vliv vápnění na půdní a epigeickou faunu." Master's thesis, 2012. http://www.nusl.cz/ntk/nusl-167446.
Повний текст джерелаКниги з теми "Oribatid fauna"
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Bai︠a︡rtogtokh, B. Fauna i ėkologii︠a︡ pant︠s︡irnykh kleshcheĭ Mongolii (Acari,Oribatida). Moskva: T-vo nauch. izd. KMK, 2011.
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Bai︠a︡rtogtokh, B. Fauna i ėkologii︠a︡ pant︠s︡irnykh kleshcheĭ Mongolii (Acari,Oribatida). Moskva: T-vo nauch. izd. KMK, 2011.
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Colloff, MJ, and RB Halliday. Oribatid Mites. CSIRO Publishing, 1998. http://dx.doi.org/10.1071/9780643105201.
Повний текст джерелаАнотація:
Oribatid mites are ancient, minute arthropods that live in soil, plant litter, mosses and lichens, and on trees and shrubs. Prior to the production of this catalogue, Australian Oribatid mites had been poorly documented. This catalogue summarises our knowledge of the fauna of Australian Oribatid mites, including many new records of species and genera. It forms a fundamental resource for anyone interested in these important organisms and their role in soil ecology and as environmental indicators.
Частини книг з теми "Oribatid fauna"
1
Skubala, Piotr, and Magdalena Maslak. "Succession of oribatid fauna (Acari, Oribatida) in fallen spruce trees: Deadwood promotes species and functional diversity." In Trends in Acarology, 123–28. Dordrecht: Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9837-5_19.
Повний текст джерела
2
Coleman, David C., John M. Blair, Edward T. Elliott, and Diana H. Wall. "Soil Invertebrates." In Standard Soil Methods for Long-Term Ecological Research, 349–77. Oxford University PressNew York, NY, 1999. http://dx.doi.org/10.1093/oso/9780195120837.003.0017.
Повний текст джерелаАнотація:
Abstract The array of species constituting soil invertebrates is very large, encompassing virtually all terrestrial invertebrate phyla. Communities of soil fauna offer opportunities for the study of such ecological phenomena as species interactions, resource utilization, and responses of ecosystems to perturbations to ecosystems. Soil invertebrates are also important for processing energy in soil systems. It is possible to determine community- and system level energetics using standard assumptions of consumption, assimilation, respiration, and excretion rates (Petersen and Luxton 1982). Several invertebrate groups such as millipedes, oribatid mites, and earthworms and snails are important accumulators and processors of labile calcium and perhaps other elements in numerous forested and desert ecosystems (Cromack et al. 1988).
3
Krisper, Günther, Heinrich Schatz, and Reinhart Schuster. "Oribatida (Arachnida: Acari)." In Checklisten der Fauna Österreichs, No.9, 25–90. Verlag der österreichischen Akademie der Wissenschaften, 2017. http://dx.doi.org/10.2307/j.ctvdjrr69.5.
Повний текст джерела
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Das, Sandipan. "Impact of edaphic factors in seasonal fluctuation of soil oribatid mite faunal abundance." In Biological Sciences: Impacts on Modern Civilization, Current and Future Challenges. New Delhi Publishers, 2020. http://dx.doi.org/10.30954/ndp.bio.2020.11.
Повний текст джерелаТези доповідей конференцій з теми "Oribatid fauna"
1
Movsesyan, S. O., R. A. Petrosyan, M. A. Nikogosyan, R. E. Barsegyan, N. B. Terenina, M. V. Voronin, and M. V. Vardanyan. "BIODIVERSITY OF THE PARASITE FAUNA IN THE NORTHERN REGIONS OF ARMENIA AND THE LAKE SEVAN BASIN." In THEORY AND PRACTICE OF PARASITIC DISEASE CONTROL. All-Russian Scientific Research Institute for Fundamental and Applied Parasitology of Animals and Plant – a branch of the Federal State Budget Scientific Institution “Federal Scientific Centre VIEV”, 2023. http://dx.doi.org/10.31016/978-5-6048555-6-0.2023.24.306-311.
Повний текст джерелаАнотація:
The variety of parasite species, infection of domesticated animals (including cattle,
sheep, goats, rabbits, poultry, dogs and pigs), natural infection of biohelminths'
intermediate hosts (including terrestrial and freshwater mollusks, soil oribatid mites)
with helminth larvae, and the species composition of tick vectors of blood protozoan
diseases have been studied. The studies found the infection of the above animals with
the following helminth species: 4 trematode species Fasciola hepatica, F. gigantica,
Dicrocoelium lanceatum, Paramphistomum sp., 13 nematode species Ascaris suum, A.
galli, Syngamus trachea, Capillaria caudinflata, Trichuris ovis, Tr. suis, Metastrongylus
elongatus, Chabertia sp., Haemonchus sp., Protostrongylus spp., Muellerius capillaris,
Dictyocaulus filaria, Cystocaulus nigrescens, 2 cestode species Moniezia expansa, M.
benedeni; 9 eimeria species Eimeria arloingi, E. intricata, E. stidae, E. magna, E.
perforans, E. tenella, E. acervulina, and E. exigua; 3 Haemosporidia species Babesia
bigeminum, B. ovis, and B. canis; and 1 Leishmania species Leishmania tropica.
There were also detected 17 species of ticks, vectors of blood protozoan diseases of
animals, and intermediate hosts of moniezia were isolated. Two species of terrestrial
and 3 species of freshwater mollusks being as intermediate hosts of helminths were
recorded.