Moss Landing Marine Laboratories, San Jose State University, Moss Landing, CA 93933, USA.
Zoophysiology, Department of Biology, Aarhus University, 8000 Aarhus, Denmark.
Proc Biol Sci. 2021 Nov 10;288(1962):20211596. doi: 10.1098/rspb.2021.1596.
The impressive breath-hold capabilities of marine mammals are facilitated by both enhanced O stores and reductions in the rate of O consumption via peripheral vasoconstriction and bradycardia, called the dive response. Many studies have focused on the extreme role of the dive response in maximizing dive duration in marine mammals, but few have addressed how these adjustments may compromise the capability to hunt, digest and thermoregulate during routine dives. Here, we use DTAGs, which record heart rate together with foraging and movement behaviour, to investigate how O management is balanced between the need to dive and forage in five wild harbour porpoises that hunt thousands of small prey daily during continuous shallow diving. Dive heart rates were moderate (median minimum 47-69 bpm) and relatively stable across dive types, dive duration (0.5-3.3 min) and activity. A moderate dive response, allowing for some perfusion of peripheral tissues, may be essential for fuelling the high field metabolic rates required to maintain body temperature and support digestion during diving in these small, continuously feeding cetaceans. Thus, despite having the capacity to prolong dives via a strong dive response, for these shallow-diving cetaceans, it appears to be more efficient to maintain circulation while diving: extreme heart rate gymnastics are for deep dives and emergencies, not everyday use.
海洋哺乳动物令人印象深刻的屏气能力得益于氧存储的增强和外周血管收缩及心动过缓(即潜水反应)导致的氧消耗率降低。许多研究都集中在潜水反应在最大限度地延长海洋哺乳动物潜水时间方面的极端作用上,但很少有研究涉及这些调整如何可能影响在日常潜水过程中的捕猎、消化和体温调节能力。在这里,我们使用 DTAG(可记录心率以及觅食和运动行为)来研究在 5 头野生港湾海豚中,如何在需要潜水和觅食之间平衡氧管理,这些海豚在连续的浅层潜水过程中每天捕猎数千只小型猎物。潜水时的心率适中(中位数最低为 47-69 次/分),在潜水类型、潜水持续时间(0.5-3.3 分钟)和活动方面相对稳定。适度的潜水反应,允许外周组织的一些灌注,可能对为这些小型连续进食的鲸目动物在潜水过程中维持体温和支持消化所需的高代谢率提供燃料至关重要。因此,尽管这些浅潜水鲸目动物有通过强烈潜水反应来延长潜水时间的能力,但对于它们来说,在潜水时保持循环似乎更为有效:极端的心率变化是为深潜和紧急情况而设计的,而不是日常使用。