Department of Biology, McMaster University, 1280 Main St. West, Hamilton, ON L8S 4K1, Canada.
J Exp Biol. 2021 Apr 1;224(7). doi: 10.1242/jeb.235218. Epub 2021 Apr 15.
At high altitude (HA), unremitting low oxygen and persistent cold push small mammals close to their metabolic ceilings, leaving limited scope for aerobically demanding activities. However, HA breeding seasons are relatively short and endemic rodents compensate with larger litters than low altitude (LA) conspecifics. Rodent mothers are the sole source of heat and nutrition for altricial offspring and lactation is energetically costly. Thus, it is unclear how HA females balance energy allocation during the nursing period. We hypothesized that HA female rodents invest heavily in each litter to ensure postnatal survival. We measured maternal energetic output and behaviour in nursing deer mice (Peromyscus maniculatus) native to LA (400 m a.s.l.) and HA (4350 m a.s.l.) under control (24°C, 760 mmHg) and cold hypoxia conditions, simulating HA (5°C, 430 mmHg). Strikingly, resting metabolic rates of lactating HA and LA females under cold hypoxia were 70-85% of their maximum aerobic capacity. In cold hypoxia, LA mothers increased both nursing time and milk fat content, however their pups were leaner and severely growth restricted at weaning. HA mothers also increased nursing in cold hypoxia but for far less time than LA mothers. Despite receiving less care, HA pups in cold hypoxia only experienced small growth restrictions at weaning and maintained body composition. As adults, HA mice raised in cold hypoxia had increased aerobic capacity compared to controls. These data suggest that HA mothers prioritize their own maintenance costs over investing heavily in their offspring. Pups compensate for this lack of care, likely by reducing their own metabolic costs during development.
在高海拔(HA)地区,持续的低氧和寒冷环境使小型哺乳动物接近其代谢上限,几乎没有机会进行有氧需求较高的活动。然而,HA 的繁殖季节相对较短,地方性啮齿动物通过比低海拔(LA)同种动物更大的产仔数来补偿。鼠类母亲是新生幼崽唯一的热量和营养来源,哺乳是非常耗能的。因此,尚不清楚 HA 雌性动物在哺乳期如何平衡能量分配。我们假设 HA 雌性啮齿动物会在每窝幼崽上投入大量精力,以确保产后存活。我们测量了生活在 LA(海拔 400 米)和 HA(海拔 4350 米)的鹿鼠(Peromyscus maniculatus)母鼠在控制条件(24°C,760 mmHg)和冷低氧条件下(模拟 HA,5°C,430 mmHg)的母体能量输出和行为。令人惊讶的是,在冷低氧条件下,哺乳期的 HA 和 LA 雌性的静息代谢率是其最大有氧能力的 70-85%。在冷低氧条件下,LA 母亲增加了哺乳时间和乳脂含量,但它们的幼崽在断奶时更瘦,生长严重受限。HA 母亲在冷低氧条件下也增加了哺乳时间,但比 LA 母亲少得多。尽管受到的照顾较少,HA 幼崽在冷低氧条件下仅在断奶时经历了较小的生长受限,并保持了身体成分。作为成年动物,在冷低氧条件下饲养的 HA 小鼠的有氧能力比对照条件下有所增加。这些数据表明,HA 母亲将自己的维持成本置于对后代的大量投资之上。幼崽通过在发育过程中降低自身代谢成本来弥补这种缺乏照顾。
