ライフサイエンスコーパス: aquarium

1 corative purposes in aquatic and terrestrial aquariums.

2 ferences for the cathodal end of the testing aquarium after electric stimulation.

3 r the potentiometric detection of nitrite in aquarium and dechloridized seawater samples.

4 t, non-breeders were placed alone in a novel aquarium and eggs from an established spawning pair were

5 Animals under managed care in zoos and aquariums are ideal surrogate study subjects for endange

6 Using aquarium-based infection experiments, we determine that

7 the cownose ray (Rhinoptera bonasus), using aquarium-born individuals (n = 42) with known dates of b

8 tially improved circRNA quantification tool, AQUARIUM, by introducing the full-length RNA structure o

9 n six whale sharks (Rhincodon typus) from an aquarium collection was explored using (1)H nuclear magn

10 e series to date demonstrating patients with aquarium coral palytoxin-associated corneal toxicity, an

11 developed corneal toxicity after exposure to aquarium coral palytoxin.

12 ils (Pleuroceridae: Juga spp.) maintained in aquarium culture and compare it genetically to equine st

13 us," recently was isolated from a salt-water aquarium, definitively confirming that chemoautotrophy e

14 of this entity among eye care professionals, aquarium enthusiasts, and the general public.

15 In the present study we performed laboratory aquarium experiments and modeling to explore how PCB sor

16 structure, we estimated potential (previous aquarium experiments) and realized (eDNA results here) r

17 In aquarium experiments, larval Acanthurus triostegus prefe

18 experiments run across days to weeks within aquarium facilities with limits to colony replication.

19 eed videography and electrical recordings of aquarium field potentials to monitor the release of aggr

20 predatory fish species and popular imported aquarium fish in the United States which has been recent

21 , we employed a transgenic strain of a small aquarium fish, medaka (Oryzias latipes), that overexpres

22 In this study, we use a popular aquarium fish, the red nose tetra fish, Hemigrammus bleh

23 d to increase the invasiveness of non-native aquarium fish, yet national assessments rarely consider

24 th reefs, but specific sectors, particularly aquarium fisheries and commercial fisheries in the mid t

25 ccumulation experiments in a well-controlled aquarium followed by ICP-OES analysis, the quantificatio

26 ht individuals of unknown age but managed in aquariums for > 22 years were predicted to be 22.10-23.4

27 te that wood used for decorative purposes in aquariums harbor large numbers of diverse fungi that rem

28 Anecdotal reports exist of aquarium hobbyists that experienced severe respiratory d

29 species are commonly used for decoration by aquarium hobbyists.

30 We show that data from zoos and aquariums in the Species360 network can significantly im

31 The marine aquarium industry has great potential to generate jobs i

32 h soft coral and seawater from a home marine aquarium involved in the poisoning of a whole family.

33 AQUARIUM is freely available at

34 When placed into an unfamiliar aquarium ('novel tank'), mutant fish become immobile ('f

35 Following aquarium releases, invasive lionfishes have colonized la

36 to have been introduced to the wild through aquarium releases.

37 The Monterey Bay Aquarium Research Institute has pioneered a robotic Envi

38 There was no difference in mortality between aquarium salt and rock salt treatments, however the rock

39 We used two types of salt, aquarium salt and rock salt, to manipulate conductivity

40 achieved by testing each species in the same aquarium, separated by enclosures, to ensure that the ob

41 d in both research and clinical practices at aquarium settings.

42 ns reliably in multiple species, across many aquariums simultaneously, and for up to weeks at a time.

43 and preference, we developed a high-pressure aquarium that mimics in situ thermal gradients and permi

44 In a well-controlled aquarium, the day-by-day uptake of cobalt and its quanti

45 The CO(2) probe has been used in an aquarium to monitor the CO(2) levels caused by the diurn

46 lls for their transfer from marine parks and aquariums to sanctuaries.

47 The marine aquarium trade (MAT) targets high-value biodiversity, bu

48 y unintentional imports (20 species) and the aquarium trade (seven species).

49 is more related to fish aesthetic value and aquarium trade importance.

50 way that could also benefit industry (e.g., aquarium trade), three culture systems were tested herei

51 -native molluscs to commercial breeding, the aquarium trade, and other sectors.

52 baseline information necessary to manage the aquarium trade.

53 Lowering fish density in the aquarium triggered rapid animal growth and robust cardio

54 h of the force it needs to use against rigid aquarium walls.

55 potassium, sodium, calcium, and chloride in aquarium water (with the composition of Lake Tanganyika

56 oride level (freshwater, drinking water, and aquarium water, as well as dechloridized seawater) decre

57 les from various waterbodies as well as with aquarium water, demonstrating high accuracy.

58 aculeatus) had to find six food sites in an aquarium, we tested the impact of high turbidity (40-68

59 of turtles and tortoises living in zoos and aquariums, we show that ~75% of 52 species exhibit slow

60 rous or nonestrous females were placed in an aquarium with soiled bedding from live traps as the odor

61 ta from mammalian species housed in zoos and aquariums worldwide, we show that ongoing hormonal contr

62 history in all patients revealed exposure to aquarium zoanthid corals shortly before disease onset.