ライフサイエンスコーパス: lunge

1 aster and require more energy than predatory lunges.

2 viors such as oblique, vertical, and lateral lunging.

3 i.e., skimming, suction, and engulfing with lunging [1].

4 me often do not even engage in mid-intensity lunging after a single defeat.

5 They showed reduced levels of lunge and bite aggression, but rarely showed offensive a

6 Defeated flies also lunge and retaliate less after experiencing a loss, sugg

7 Among these, wing threat, lunging and tussling are specific to aggression; circlin

8 ES males displayed higher numbers of lunges, and won more fights against their AS opponents.

9 The volume of water engulfed during a lunge can exceed the volume of the whale itself [2].

10 In fin whales, multiple lunges can occur during a single dive, and the average t

11 between their front four legs, these spiders lunge downward to ensnare prey from off the ground benea

12 These findings support hypotheses that as lunge-feeders of extreme size, Antarctic blue whales tar

13 Although the basic mechanics of lunge feeding are relatively well known, the scaling of

14 The evolution of lunge feeding confers an energetic advantage that is uni

15 Lunge feeding entails a high energetic cost due to the d

16 the direction and size of their rolls during lunge feeding events, we show how these animals differ f

17 ng rates on 23 humpback whales, we show that lunge feeding is energetically cheap.

18 Lunge feeding is facilitated by several morphological sp

19 s whales, which is distinct from the typical lunge feeding of rorqual whales.

20 riented forces, which may be used to enhance lunge feeding performance.

21 e, slowly beating heart and the high cost of lunge feeding represents a unique test of our understand

22 ubber directly relates to their intermittent lunge feeding strategy, which is unique among vertebrate

23 assive food turnover driven by a high-intake lunge feeding style aptly described as the world's large

24 tera novaeangliae), employ a strategy called lunge feeding to capture a large amount of krill and/or

25 intermittent engulfment filtration feeding (lunge feeding), which increases in efficiency with body

26 hales (Balaenopteridae) obtain their food by lunge feeding, a dynamic process that involves the inter

27 ridae) engulf and filter prey-laden water by lunge feeding, a strategy that is unique among vertebrat

28 ng studies have quantified the kinematics of lunge feeding, the timing of engulfment relative to body

29 hales exhibit a high-cost feeding mechanism, lunge feeding, whereby large volumes of prey-laden water

30 nction for the rapid flipper movement during lunge feeding: the flippers are flapped using a complex,

31 steady hydrodynamic models and tag data from lunge-feeding rorquals.

32 The largest baleen whales use a high-drag lunge-feeding strategy that is hypothesized to come at a

33 Rorqual whales exhibit an extreme lunge filter-feeding strategy characterized by accelerat

34 a during the powered ascent phase of feeding lunges followed by a gradual decrease of heart rate duri

35 ometric plantar flexion (MVIC) and badminton lunges following heel rise exercises performed to exhaus

36 ghttime lambda(f) (mean +/- s.d.: 165 +/- 40 lunges h(-1); max: 236 lunges h(-1); mean depth: 28 +/-

37 +/- s.d.: 165 +/- 40 lunges h(-1); max: 236 lunges h(-1); mean depth: 28 +/- 46 m) were indistinguis

38 a single dive, and the average time between lunges is just over forty seconds [3].

39 as knee flexion angles increased during the lunge, knee extension, and leg press dynamic activities,

40 retreated less, whereas losers progressively lunged less and retreated more.

41 Humpbacks use acrobatic lunging maneuvers to attack dense aggregations of krill

42 , from the humid biome, showed a tendency to lunge more per aggressive encounter, compared with AS ma

43 al strategies changed: winners progressively lunged more and retreated less, whereas losers progressi

44 Next, each patient performed a lunge motion from 0 degrees to 90 degrees of flexion as

45 to achieve 7x the energetic efficiency (per lunge) of krill foraging, allowing for flexible foraging

46 , lifting a 25 lb (roughly 11 kg) weight and lunging), our controller significantly reduced user ener

47 the mechanics of the whale's body, including lunge speed and acceleration, gape angle dynamics, and t

48 s also suggests that engulfment duration and lunge speed will increase intra-specifically with body s

49 In the lunge task, the fascia thickness reduced after fatigue i

50 During a lunge, whales accelerate to high speed and open their mo

51 ants performed two tasks (MVIC and badminton lunge) with a randomized sequence of no taping, KT and s