Posts Tagged ‘underwater phone pouch’

Bottlenose Dolphin Research Institute

onsdag, oktober 11th, 2017

The Bottlenose Dolphin Research Institute BDRI is a research and educational centre dedicated to the understanding and conservation of cetaceans and the marine environment in which they live. The Institute’s BDRI centre was founded by the biologist Bruno Díaz López in Sardinia, Italy in 2005. However, since 2014 we have opened a new facility in our original location in Galicia, NW coast of Spain. This transformation has considerably improved our ability to care for and study marine mammals, providing a collaborative work environment for staff, students and volunteers from all over the world. Our research programs have helped us to understand the threats facing the dolphins and to develop strategies to manage these threats.

BDRI concentrates its efforts on research into dolphins because they are predators at the top of their food chain, so their well-being provides an excellent indication of the health of the entire ecosystem on which they, and humans, depend. Large, charismatic mammals underwater phone pouch, from elephants and pandas to whales and dolphins, also command tremendous public interest and are consequently an excellent way of generating public awareness of, and concern about, wider environmental issues. Whales and dolphins around the world are under threat from Marine pollution, over-fishing, getting entangled in nets, whaling and uncontrolled tourism.

BDRI members seek to contribute to the understanding and conservation of dolphins, expand the public’s knowledge and concern for our marine environment, and add to the knowledge base of bottlenose dolphins through publications of collected and analysed field data. Using study techniques that neither harm nor seriously disturb the animals, BDRI’s researchers are engaged in the conduction of a long term study about the ecology and behaviour of a bottlenose dolphin population, as well as collecting detailed information about their environment.

Bottlenose dolphins are protected by European law, but in order to develop effective protection guidelines, education and research is necessary to find out much more about the dolphins and the pressures they face. The BDRI has educational and research programmes aimed at providing extra support for scientists early in their careers, science students, local students and scientists from developing countries, including training opportunities in the field, grants, and online and field courses.

Cetacean populations are affected by man’s use of coastal waters, particularly by fisheries activities and habitat modification. A science-based response to the conservation problems created by interactions between human activities and dolphins depends critically on accurate knowledge of the impacts caused by the interactions. By increasing our knowledge about dolphins and their environment, BDRI researchers will be in a strong position to protect the animals from these and other threats caused by humans. Using study techniques that neither harm nor seriously disturb the animals, BDRI researchers are engaged in the conduction of a long term study about the ecology and behaviour of a bottlenose dolphin populations in different study areas, as well as collecting detailed information about their environment.

BDRI research projects provide scientific data to assist environmental agencies in managing and conserving marine natural resources and to obtain fundamental knowledge about this behaviourally flexible and cosmopolitan species. Our programs are conducted under a Research Permit issued by the Department of Environment of the Galician Government as part of our cooperation with the national networking for the study of marine mammals (CEMMA). Additional studies by the BDRI have also been conducted in Italy, Spain and Abu Dhabi to date.

BDRI researchers address a wide range of questions to form a multi-dimensional picture of the marine mammals behaviour and ecology and its relationship to the rest of the planet, including human society. The BDRI research has a multidisciplinary approach where we currently focus on four main research projects:

– Cetacean distribution along Galician coast: Current studies by the Bottlenose Dolphin Research Institute BDRI research team principally focus on the cetacean species frequenting the inshore waters of the outer Arousa Firth, however, a new area like Galician coastal waters (north-west Spain) offers us to also take on new projects and a more diverse range of issues and species. These waters are characterized by high biodiversity and productive fisheries, supported by nutrient input due to upwelling. Twenty species of cetaceans have been recorded in Galician waters, of which the most abundant appear to be short-beaked common dolphins and bottlenose dolphins. Other species present in the area include harbour porpoises, Risso’s dolphins and long-finned pilot whale. Conservation issues for cetaceans in Galician waters include interactions with fisheries, which may be a significant cause of mortality, overfishing, and oil spills. Hence, the information collected will inform conservation plans by identifying coastal areas of high importance to cetaceans. Wild bottlenose dolphins and humans frequenting the same small areas makes boat interaction more or less inevitable. BDRI researchers provided quantified data about bottlenose dolphin diving behaviour in the presence and absence of boats in Galicia. The data reported by BDRI researchers could be used to implement precautionary management proposals that take into account the potential effects of boat presence on dolphins.

– Behavioural ecology of dolphins and impact of human activities on their lives: Much of the research work is based upon repeat observations of individually-recognisable dolphins, providing data for a range of long-term and ongoing studies on the abundance, site fidelity, home range, social structure and behaviour of this population. The study of dolphins social structures defines an important class of ecological relationships between individuals and their nearby conspecifics. Common bottlenose dolphins live in fission–fusion societies within which individuals associate in small groups that change in composition, often on a daily or hourly basis. Fission–fusion societies limit the effect of within-unit competition through unit splits during periods of high competition, and they enhance cooperative effects through unit cohesion when the ecological costs of aggregating are low or benefits of sociality are high. Human activities can influence the distribution of food resources, which may promote the evolution of social organizations as a response to fluctuations in the costs of feeding competition. Therefore, fission–fusion societies present a good opportunity to examine the costs and benefits of association in dolphin populations affected by human use of coastal waters, especially by fisheries activities and habitat modification.

Individual-based studies focusing explicitly the variability of social unit structure in relation to anthropogenic factors are few. In this project, BDRI researchers will study the patterns of association of different populations of bottlenose dolphins (in Italy and Spain) and will describe the way in which their association behaviour is related to the way they respond to food patches created by human activities. BDRI researchers studied interactions between dolphins and gillnets along the north-eastern coast of Sardinia (Italy). Although dolphins benefit from taking fish entangled in gillnets, the association with gillnets is harmful because it exposes dolphins to additional risk. An observed annual estimate of the number of dolphins caught in gillnets was 3.54%. The extent of the estimated by-catch is worrisome in terms of the ability of bottlenose dolphins off Sardinia to sustain such an annual loss. The higher annual numbers of immature dolphins than adults dolphins caught in gillnets was related with a lack of experience together with and the tendency of immatures to play and/or to spend a lot of time scouting.

BDRI’s researchers have also examined the effects of aquaculture on marine fauna in general, and more specifically, the impacts of aquaculture on dolphins in different marine fin fish farms off the coast of Sardinia, Italy. One of the objectives of these studies was to determine the variables that influence the presence and abundance of dolphins in the fish farms area.

Marine aquaculture and, in particular intensive fish farming, have shown a large expansion in most Mediterranean countries over the last ten years. To curb predation, many marine fish farms employ control methods which exclude, harass or remove predators. One such method, predator netting, creates a physical barrier that protects farmed fish from attacks by airborne and underwater predators. The incidental capture of marine mammals by commercial fisheries is often a controversial and emotive issue. A potential impact on marine mammals as a result of aquaculture interaction is death or injury through entanglement in gear. BDRI researchers carried out the first attempt in the Mediterranean basin to obtain information on encounter rate, group size and incidental capture of bottlenose dolphins in a marine fish farm. The regular occurrence of some dolphins suggests individual preferences for the fish farm area. The incidental bottlenose dolphin capture observed in large, loose predator nets is cause for concern, as it is questionable whether or not the bottlenose dolphins in the area can sustain incidental capture of this magnitude. The information gained from this study showed the necessity for further regulations to be established, both in the use of predator nets and management of marine fish farms.

Assessing the consequences of fisheries and habitat modification with relatively obvious effects on marine predators can be difficult. BDRI researchers were the first to show how coastal fisheries and aquaculture are not only directly affecting marine predators but could also indirectly affect their social structure and behaviour. BDRI researchers suggest that the main management issues raised by their studies relates to the dolphins’ habitat. The feeding opportunities for dolphins that are created by human activities have become part of their ”way of life”, part of their habitat requirements. When top predators display complex social responses to activities not directed at them, the task of studying all possible effects in the food chain can become even more challenging. Further work should focus on elucidating how human activities induce social and spatial changes in marine top predators.

BDRI researchers observed that the use of pingers reduces dolphin mortality due to bycatch on gillnets. Definite proof that acoustic devices have a long-term effectiveness has not been found. The Dinner Bell and Habituation factors must be taken into consideration to test in future studies.

Bottlenose dolphins living around coastal regions have received much attention due to their increased vulnerability of inhabiting areas where marine traffic is concentrated. Marine traffic has previously been observed to elicit responses in cetacean behaviours, but the cause and effects of these interactions has yet to be fully understood. BDRI’s current study area of Aranci Bay, Sardinia, provides a unique insight into an area where the interactions of bottlenose dolphins and vessels remains largely unchecked. Our studies showed that the dolphins were surfacing less regularly in the presence of vessels and this response was further enhanced during vessel approaches. Moreover, by examining the influence of different types of vessel it was evident that the dolphins elicited a stronger response to tourist than fisheries vessels. The behaviour vessels display around the dolphins as well as speed, engine type and distance of approach were all factors that needed to be taken into consideration when analysing the changes observed. Research is contributing to a wider management scheme to ensure that marine traffic is monitored effectively when bottlenose dolphins are present.

– Dolphins communication: Bioacoustics research provides important insights into animal behavior water carriers for runners. Dolphins (family: Delphinidae) are an extremely vocal mammalian family and vocal communication plays an important role in mediating social interactions. Most BDRI studies of delphinid vocalizations have concentrated on bottlenose dolphins, Tursiops truncatus (in the Mediterranean, Italy, and in the Atlantic Ocean, Spain) and T. aduncus (in the Persian Gulf, Abu Dhabi, UAE). Until recently, communication behaviour had a limited role in conservation, being restricted to enhancing captive breeding programs or use in species counts. However, knowledge of how individuals within a population communicate can generate information ranging from measures of habitat use, social relevance, geographical variation, cultural transmission, etc., that can be applied to conservation. Marine mammals use sound for activities essential to survival and reproduction 32 ounce glass water bottle. Bottlenose dolphins are extremely vocal mammalian species, and vocal communication plays an important role in mediating social interactions. Amid the abundant literature pertaining to vocalizations of bottlenose dolphins, very little is known about the vocal repertoire of Mediterranean wild bottlenose dolphins. BDRI bioacoustical studies carried out year round from 2005 represent the first attempt to obtain information on the repertoire and production patterns of bottlenose dolphins resident in an area characterized by important interaction with human activities (tourism, aquaculture and coastal fisheries). Many vocal signals were strongly implicated in social and feeding interactions. Although many of these vocalizations have been previously described in the literature, their association with specific behaviours linked with human activities provides additional contextual information about their potential use as communication signals. One of BDRI’s most recent projects shows that the number of whistles recorded in a group increased significantly as the number of mother-calf pairs increased, confirming that whistles may be used as contact calls. These studies use benign techniques to demonstrate the great diversity of communication signals emitted and indicate a functional role of these vocalizations during the observed behaviours. Cetaceans (dolphins, whales and porpoises) are often faced with the challenge of hearing strange sounds in environments with noise from both natural and anthropogenic sources. BDRI researchers have documented that human-introduced noise induces behavioural reactions in bottlenose dolphins. In addition noise pollution is being considered as a cause of displacement of cetaceans from preferred habitats. Short-term noise pollution may not create significant problems. Repeated or long-term noise pollution, however, can cause stress and debilitation and may be related to dolphin mortality. Related scientific publications:

– Dolphins in the Persian Gulf: At least ten species of cetacean have been identified in the Persian Gulf, but most of these are considered vagrant or seasonal visitor. Only two species of dolphin, the Indo-Pacific humpback (Sousa chinensis) and the Indo-Pacific bottlenose dolphin (Tursiops aduncus) are thought to be common residents of the Gulf. The finless porpoise (Neophocoena phocaenoides) is thought to be an uncommon resident.

The conservation status of these species in Abu-Dhabi waters is totally unknown running belts australia, largely because of the lack of research on either species. The world conservation status of these species is Data Deficient, that is, there is insufficient information on which to make an assessment. This deficiency hampers conservation and management efforts and our ability to assess the impact of human activities on local populations of this species.

BDRI researchers participate in cooperation with the Environmental Agency of Abu Dhabi since 2014, for the first time in Abu Dhabi waters, in a research project in order to obtain accurate data on population estimate, distribution, potential threats and residence patterns of dolphin species observed in coastal waters of Abu-Dhabi (UAE). The final purpose of this project is to inform and improve the design of conservation and management interventions towards these species in Abu-Dhabi waters.

As a marine science research team, BDRI researchers have witnessed first hand the effects global warming and climate change have on our planet. Every year new tropical species are catalogued in north Sardinia as having arrived from tropical waters as an effect of global warming, and entire ecosystems are being affected. BDRI researchers are committed to the implementation of proactive measures to help protect and sustain the local and global environment for future generations. The BDRI aims to achieve the objective of improved environmental performance through pollution prevention and continuous improvement. All BDRI members, workers and volunteers are expected to conduct their work in a manner compatible with the BDRI’s Responsible Travel policy and objectives.

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Watanabe et la Sorcière de Kyoto

onsdag, juli 26th, 2017

Le conte Watanabe et la sorcière de Kyoto s’apparente par certains côtés à nos contes de fée, bien qu’il s’agisse d’une légende médiévale.

À la porte Nord de Kyoto réside une vieille sorcière. La plus abominable des sorcières. Il n’est pas de jour où elle n’assassine un passant.

Les commerçants du quartier se sont réunis pour envisager comment ils pourront se débarrasser d’elle mais personne n’ose l’affronter. Personne sauf Watanabe no Tsuna, un guerrier connu pour son courage et son audace

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Le lendemain, Watanabe se dirige vers la résidence de la sorcière. Il est armé de son sabre et porte une armure d’acier. La sorcière se réjouit déjà: elle comptera bientôt une victime supplémentaire à son actif…

À peine Watanabe l’a-t-il aperçue, qu’il se jette sur elle avec impétuosité et lui tranche l’avant bras droit. L’horrible femme rentre rapidement chez elle.

Watanabe offre le sabre à son Daimyo et enveloppe l’avant bras dans un linge pour le rapporter chez lui comme trophée. En arrivant il est assailli de toutes part. Chacun veut voir à quoi ressemble un avant-bras de sorcière. Mais Watanabe a promis de ne pas l’exhiber. Il refuse poliment aux uns comme aux autres et porte l’objet dans sa chambre.

Survient une vieille femme que le jeune guerrier reconnaît comme sa tante. Celle qui l’a élevé jadis dry pak waterproof. Elle est enveloppée dans un manteau qu’elle retient fermé de sa main gauche. Elle demande à son tour à voir l’objet. Peut-on refuser à celle qui vous a élevé ? Watanabe va chercher le membre et le présente à sa tante qui s’en saisit de la main gauche.. Elle semble étrangement émue mais sa voix ne paraît plus tout à fait identique au combattant. Quelque chose a changé. Peu à peu, le visage se transforme. Les traits deviennent ridés et grossiers. L’expression en est haineuse underwater phone pouch. Un œil se ferme. L’autre se porte en arrière. Watanabe découvre avec stupeur qu’il a devant lui la sorcière et non plus sa tante bien-aimée.

L’intrépide jeune homme décide d’en finir. Il court chercher une arme. Lorsqu’il revient, il voit au loin une forme qui s’élève dans les airs tenant contre elle son avant bras droit maculé de sang.

Contes et légendes du Japon, F. Challaye, Collection des contes et légendes de tous les pays runners belt pack, Fernand Nathan 1963.

Contes et légendes du Japon

Obihiro University of Agriculture and Veterinary Medicine

söndag, januari 29th, 2017

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Obihiro University of Agriculture and Veterinary Medicine (帯広畜産大学 Obihiro Chikusan Daigaku?) is a university in Obihiro, Hokkaido, Japan, commonly referred to as Obihiro University. It was founded in 1941 as the Obihiro Technical School of Veterinary Medicine underwater phone pouch. Seattle Sounders FC Second Away BARRETT 19 Jerseys

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As of 2009, the university employs 136 faculty members and a full-time staff of over 100. It offers instruction to 1,300 students in bachelors, masters, and doctoral programs. The university accepts an average of 14 foreign students and sends out an average of seven study abroad students each year.

Millville, Pennsylvania

onsdag, januari 4th, 2017

Millville is a borough in Columbia County, Pennsylvania, United States. As of the 2010 census it had a population of 948. It is part of the Bloomsburg–Berwick Micropolitan Statistical Area.

John Eves, a native of Ireland living in Mill Creek Hundred, Delaware, is thought to have been one of the white men to visit the Greenwood Valley and Little Fishing Creek area in 1770. (One account of this visit indicates that he purchased a sizable portion of the land he explored in the area from the Indians who had served as his guides on this trek.) Although he returned to Delaware after this initial visit, he returned the following year with his son Thomas and built a log cabin on the property. The entire Eves family arrived the next year, in 1772, and began tilling the fields adjacent to the cabin as soon as they could be cleared.

In 1774, the Eves family received a deed for their 1,203-acre (4.87 km2) property in the valley, the largest land holding at the time in what would later become Columbia County. Title for the land, originally obtained by William and Elizabeth McMean in 1769, was passed to Reuben Haines, and then to John Eves.

An Indian uprising, the Battle of Wyoming, in mid-summer of 1778, caused the Eves family to flee their home in the valley and take refuge at a stockade near Washingtonville. Upon their return in 1785, they found their cabin burned and their fields overgrown, but immediately set about to recreate their homestead.

When the Eves family returned in the mid-1780s, they were determined to make the settlement permanent. They were accompanied or were soon followed by several other families, including Masters, Kisner underwater phone pouch, Battin, Parker, Lundy, Lemon, Oliver, and Rich. With 17 children and 104 grandchildren, John Eves looked after the building of homes for the family, a gristmill that was to stand for 100 years, and later a sawmill and several other essential structures.

Growth of the community was slow because it was not located along a main traveled route or major waterway. Until 1798, Indian trails, which crossed at Millville, were the only accessways to the area. In that year, a road was surveyed across the Mount Pleasant hills to the Susquehanna River. It was 1856 through before the road from Bloomsburg to Laporte was laid out through Millville.

Early residents were almost entirely self-sufficient. Thomas Eves succeeded his father in ownership of the grist mill and built the first house in what is now Millville Borough. According to an early historian, David and Andrew Eves opened the first store in the area in 1827. David Eves was also commissioned the first postmaster in 1831, followed by his brother Andrew some years later.

While the early population was scattered, provision was made for both worship and education. In the early years of the community, services and classes were held in the homes, but in 1785, a school was started in Millville and a two-room meeting house was erected in 1795 best water bottle in the world.

Local industry at the time consisted of those operations which were necessary to meet the needs of the early population. Sawmills and grist mills were the first, followed by a woolen mill, started in 1813 by John Watson, several brick plants, and a wagon shop, established by Charles Eves, in 1837.

One spurt of growth in Millville occurred in 1856 when the road from Bloomsburg to Laporte was constructed. The town experienced considerable growth in the years following construction of this roadway because the community now had adequate access to markets and other transportation links in Bloomsburg. A second period of growth was experienced in 1887 when the railroad was constructed through town. Numerous businesses and industries were created and buildings were erected to service the railroad. A local newspaper, the Weekly Tablet, published its first edition in April 1887.

Millville is located in northwestern Columbia County at (41.122785, -76.527650), on the east side of Little Fishing Creek

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, which flows south to join Fishing Creek just north of the Susquehanna River in Bloomsburg. According to the United States Census Bureau, the borough has a total area of 1.0 square mile (2.6 km2), of which 0.008 square miles (0.02 km2), or 0.85%, is water. Millville is bordered to the north, east, and south by Greenwood Township, to the southwest, across Little Fishing Creek, by Madison Township, and to the northwest, also across the creek, by Pine Township. The unincoporated community of Iola borders Millville to the north in Greenwood Township.

Millville is served by Pennsylvania Route 42 and Pennsylvania Route 254. PA 42 leads north 27 miles (43 km) (via US 220) to Laporte and south 10 miles (16 km) to Bloomsburg, the Columbia County seat, while PA 254 leads east 6 miles (10 km) to Rohrsburg and southwest 4 miles (6 km) to Jerseytown.

As of the census of 2000, there were 991 people, 380 households, and 242 families residing in the borough. The population density was 1,039.7 people per square mile (402.8/km²). There were 408 housing units at an average density of 428.0 per square mile (165.8/km²). The racial makeup of the borough was 98.89% White, 0.20% African American, 0.61% Asian, and 0.30% from two or more races. Hispanic or Latino of any race were 0.30% of the population.

There were 380 households thick football socks, out of which 27.4% had children under the age of 18 living with them, 50.5% were married couples living together, 10.8% had a female householder with no husband present, and 36.3% were non-families. 31.8% of all households were made up of individuals, and 20.0% had someone living alone who was 65 years of age or older. The average household size was 2.25 and the average family size was 2.83.

In the borough the population was spread out, with 19.2% under the age of 18, 7.4% from 18 to 24, 24.0% from 25 to 44, 19.8% from 45 to 64, and 29.7% who were 65 years of age or older. The median age was 44 years. For every 100 females there were 72.9 males. For every 100 females age 18 and over, there were 69.7 males.

The median income for a household in the borough was $29,191, and the median income for a family was $44,063. Males had a median income of $30,357 versus $23,269 for females. The per capita income for the borough was $18,958. About 10.4% of families and 14.0% of the population were below the poverty line, including 15.8% of those under age 18 and 20.9% of those age 65 or over.

Max Kloss

söndag, december 18th, 2016

Max Kloss (* 16. Mai 1873 in Dresden; † 11. August 1961 in Berlin) war Maschinenbauer und Professor für Elektrische Maschinen sowie Rektor an der Königlich Technischen Hochschule Berlin (heute TU Berlin).

Während seines Studiums wurde er 1893 Mitglied der Sängerschaft Erato Dresden.

1919 war Kloss für die Deutschnationale Volkspartei (DNVP) Mitglied der Verfassunggebenden Preußischen Landesversammlung.

Sein Grab befindet sich auf dem Evangelischen Kirchhof Nikolassee.

Nach dem Studium an der Technischen Hochschule Dresden wurde er dort im Jahre 1902 zum Dr.-Ing. promoviert.

Kloss war vom 1. Oktober 1911 bis 1938 Ordinarius für Elektrische Maschinen in der Abteilung für Maschinen-Ingenieurwesen, Abt. III (ab 1922 umbenannt in Fakultät III für Maschinenwirtschaft, ab 1928 umbenannt in Fakultät III für Maschinenwesen, Abteilung Starkstromtechnik) der Königlich Technischen Hochschule zu Berlin (ab 1919 umbenannt in Technische Hochschule zu Berlin).

Im Studienjahr 1914/1915 wirkte Kloss als Dekan der Abteilung III für Maschinen-Ingenieurwesen, im Kriegsjahr 1916/1917 auch als Rektor der Königlich Technischen Hochschule zu Berlin (Prorektor: George Henry de Thierry).

Nach der Emeritierung 1938 wurde er zum Ehrensenator der Technischen Hochschule zu Berlin ernannt designer glass water bottles; im Jahr 1950 wurde ihm durch die Technische Universität die akademische Würde „Ehrensenator der Technischen Universität Berlin-Charlottenburg“ verliehen.

Friedrich Karl Hermann Wiebe (1879–1881) | Emil Winkler (1881–1882) | Bernhard Kühn (1882–1883) | Guido Hauck (1883–1885) | Eduard Dobbert (1885–1886) | Friedrich Rüdorff (1886–1887) | Georg Meyer (1887–1888) | Julius Schlichting (1888–1889) | Johann Eduard Jacobsthal (1889–1890) | Franz Reuleaux (1890–1891) | Richard Doergens (1891–1892) | Emil Lampe (1892–1893) | Hermann Rietschel (1893–1894) | Adolf Slaby (1894–1895) | Heinrich Müller-Breslau (1895–1896) | Guido Hauck (1896–1897) | Otto Nikolaus Witt&nbsp underwater phone pouch;(1897–1898) | Adolf Goering (1898–1899)&nbsp high school football uniforms;| Alois Riedler (1899–1900) | Fritz Wolff (1900–1901) | Johann Friedrich Bubendey (1901–1902) | Otto Kammerer (1902–1903) | Georg Hettner (1903–1904) | Adolf Miethe (1904–1905) | Oswald Flamm (1905–1906) | Max Grantz (1906–1907) | Otto Kammerer (1907–1908) | Richard Borrmann (1908–1909) | Walther Mathesius (1909–1910) | Heinrich Müller-Breslau (1910–1911) | Georg Wilhelm Scheffers (1911–1912) | Emil Josse (1912–1913) | Friedrich Romberg (1913–1914) | Hugo Hartung (1914–1915) | George Henry de Thierry (1915–1916) | Max Kloss (1916–1917) | Hermann Hüllmann (1917–1918) | Eugen Jahnke (1919–1920) | Robert Pschorr (1920–1921) | Rudolf Rothe (1921–1922) | Erich Blunck (1922–1923) | Walter Laas (1923–1924) | Ernst Orlich (1925–1926) | Alfred Stavenhagen (1926–1927) | Hermann Boost (1927–1928) | Georg Hamel (1928–1929) | Rudolf Drawe (1929–1930) | Daniel Krencker (1930–1931) | Ludwig Tübben (1931–1933) | Achim von Arnim (1934–1938) | Ernst Storm (1938–1942) | Oskar Niemczyk (1943–1944) | Max Volmer (Anfang Juni 1945, kommissarisch) | Georg Schnadel (Juni 1945 bis Oktober 1945, kommissarisch) | Walter Kucharski (1946–1947) | Jean D’Ans (1947–1948) | Kurt Apel (1948–1949) | Hans Freese (1949–1950) | Walter Pflaum (1950–1951) | Iwan Stranski (1951–1953) | Otto Dahl (1953–1955)&nbsp waterproof smartphone bag;| Johannes Lorenz (1955–1956) | Kurt Dübbers (1956–1957) | Werner Kniehahn (1957–1959) | Otto R. Schnutenhaus (1959–1960) | Johannes Lorenz (1960–1961) | Herbert Kölbel (1961–1963) | Paul Hilbig (1963–1965) | Friedrich-Wilhelm Gundlach (1965–1967) | Kurt Weichselberger (1967–1968) | Hans Wever (1968–1970) | Alexander Wittkowsky (1970–1977) | Rolf Berger (1977–1978) | Jürgen Starnick (1979–1985) | Manfred Fricke (1985–1993) | Dieter Schumann (1993–1997) | Hans-Jürgen Ewers (1997–2002) | Kurt Kutzler (2002–2010) | Jörg Steinbach (2010–2014) | Christian Thomsen (seit 2014)


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