Climatic Effects of Ocean Salinity on M Dwarf Exoplanets

Kyle Batra, Stephanie L. Olson
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Abstract

Ocean salinity is known to dramatically affect the climates of Earth-like planets orbiting Sun-like stars, with high salinity leading to less ice and higher surface temperature. However, how ocean composition impacts climate under different conditions, such as around different types of stars or at different positions within the habitable zone, has not been investigated. We used ROCKE-3D, an ocean-atmosphere general circulation model, to simulate how planetary climate responds to ocean salinities for planets with G-star vs. M-dwarf hosts at several stellar fluxes. We find that increasing ocean salinity from 20 to 100 g/kg in our model results in non-linear ice reduction and warming on G-star planets, sometimes causing abrupt transitions to different climate states. Conversely, sea ice on M-dwarf planets responds more gradually and linearly to increasing salinity. Moreover, reductions in sea ice on M-dwarf planets are not accompanied by significant surface warming as on G-star planets. High salinity can modestly bolster the resilience of M-dwarf planets against snowball glaciation and allow these planets to retain surface liquid water further from their host star, but the effects are muted compared to G-star planets that experience snowball bifurcation and climate hysteresis due to the ice-albedo feedback.
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海洋盐度对 M 矮系外行星的气候影响
众所周知,海洋盐度会极大地影响围绕类太阳恒星运行的类地行星的气候,高盐度会导致较少的冰和较高的表面温度。然而,海洋成分如何影响不同条件下的气候,如不同类型恒星周围或宜居带内的不同位置,还没有进行过研究。我们利用海洋-大气环流模型 ROCKE-3D 模拟了在几种恒星通量下 G 星与 M 矮星宿主行星的海洋盐度对行星气候的影响。我们发现,在我们的模型中,海洋盐度从 20 克/千克增加到 100 克/千克会导致 G 星行星上的冰非线性减少和变暖,有时会导致突然过渡到不同的气候状态。与此相反,M-矮行星上的海冰对盐度增加的反应更为渐进和线性。此外,M-矮行星上海冰的减少并不像G-星行星那样伴随着显著的表面升温。高盐度可以适度地增强M-矮行星抵御雪球冰川作用的能力,并使这些行星能够在离其主恒星更远的地方保留表面液态水,但与经历雪球分叉和气候滞后的G-星行星相比,这种影响是微弱的,因为G-星行星会经历冰-碱度反馈。
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