北极海带的微观生命阶段在其弹性和繁殖产出方面不同,以响应北极的季节性

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-01-19 DOI:10.1080/09670262.2021.2014983
Cláudio F. Silva, G. Pearson, E. Serrão, I. Bartsch, N. Martins
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引用次数: 4

摘要

在环境和季节变化强烈的北极地区,海带森林是重要的栖息地。关于季节条件和气候变化情景如何影响海带早期生命阶段的生存和繁殖的知识严重缺乏。为了更好地了解这种恶劣环境下海带生命周期过程的调控,我们重点研究了斯匹次卑尔根群岛Kongsfjorden地区海带Alaria esculenta和Laminaria digitata早期生命阶段的生理性能和繁殖成功率。研究了北极冬季配子体的生长和存活以及春季条件下孢子体的补充。冬季条件(2°C,完全黑暗)使两个物种的配子体生长停止,并阻止了配子体发生的发生。在恢复到春季的条件下,毛茛的配子体可育,而毛茛的配子体不可育,说明毛茛的孢子发生、有性繁殖和补充必须在夏季和秋季先后进行,而毛茛的新一代孢子体可以从越冬的配子体发育而来。模拟树冠遮荫(提供对极端辐照胁迫的保护,特别是当海冰退缩时)、当前和预测的北极夏季海水温度以及营养水平对两个物种配子体存活、繁殖力和孢子体招募成功的影响也进行了研究。除在极弱光照条件下(模拟茂密林冠)外,沙菖蒲配子体的存活率和繁殖成功率均高于马地黄。相比之下,遮荫是L. digitata配子体繁殖成功的必要条件。预计夏季气温为9°C,这两个物种的有性繁殖都减少了。观察到的这些环境驱动因素之间的相互作用可能反映了物种特有的生存和繁殖的季节性模式。这些海带物种对非生物因素和光照水平(模拟树冠遮阳)的响应差异表明,气候变化可能通过影响有性繁殖和孢子体招募成功来改变北极的群落结构。•配子体能够忍受长时间的黑暗。•亲本海带冠层是配子体存活和招募的关键。•气候变化可能会改变海带的招募模式。
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Microscopic life stages of Arctic kelp differ in their resilience and reproductive output in response to Arctic seasonality
ABSTRACT Kelp forests are important habitats in the strongly environmentally and seasonally variable Arctic. There is a critical lack of knowledge about how seasonal conditions and climate change scenarios influence survival and reproduction of kelp early life stages. To better understand the regulation of kelp life cycle processes in this harsh environment we focused on the physiological performance and reproductive success of early life stages in Alaria esculenta and Laminaria digitata from Kongsfjorden, Spitsbergen. Gametophyte growth and survival during Arctic winter and subsequent sporophyte recruitment under spring conditions were investigated. Winter conditions (2°C, complete darkness) halted gametophyte growth and prevented the onset of gametogenesis in both species. The gametophytes of L. digitata but not A. esculenta became fertile after returning to spring conditions, suggesting that sporogenesis, sexual reproduction and recruitment in A. esculenta must occur successively during summer/autumn while in L. digitata a new generation of sporophytes could develop from over-wintering gametophytes. The effects of simulated canopy shading (offering protection against extreme irradiance stress, particularly as sea ice retreats), present-day and projected Arctic summer seawater temperatures, and nutrient levels on gametophyte survival, fertility and sporophyte recruitment success were also investigated in both species. A. esculenta gametophytes had greater survival and reproductive success than L. digitata, except under very low light (simulating dense canopy). In contrast, shading was required for reproductive success in L. digitata gametophytes. Predicted summer temperatures of 9°C reduced sexual reproduction in both species. Interactions observed between these environmental drivers probably reflect species-specific seasonal patterns of survival and reproduction. These differences between kelp species in response to abiotic factors and light levels (simulated canopy shading) suggest that climate change could alter community structure in the Arctic through effects on sexual reproduction and sporophyte recruitment success. HIGHLIGHTS• Gametophytes were able to endure long periods of darkness.• Parental kelp canopy is key for gametophyte survival and recruitment.• Climate change may alter kelp recruitment patterns.
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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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