The endemic kelp Lessonia corrugata is being pushed above its thermal limits in an ocean warming hotspot

IF 2.8 3区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Cody James, Cayne Layton, Catriona L. Hurd, Damon Britton
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Abstract

Kelps are in global decline due to climate change, which includes ocean warming. To identify vulnerable species, we need to identify their tolerances to increasing temperatures and determine whether tolerances are altered by co-occurring drivers such as inorganic nutrient levels. This is particularly important for those species with restricted distributions, which may already be experiencing thermal stress. To identify thermal tolerance of the range-restricted kelp Lessonia corrugata, we conducted a laboratory experiment on juvenile sporophytes to measure performance (growth, photosynthesis) across its thermal range (4–22°C). We determined the upper thermal limit for growth and photosynthesis to be ~22–23°C, with a thermal optimum of ~16°C. To determine if elevated inorganic nitrogen availability could enhance thermal tolerance, we compared the performance of juveniles under low (4.5 μmol · d−1) and high (90 μmol · d−1) nitrate conditions at and above the thermal optimum (16–23.5°C). Nitrate enrichment did not enhance thermal performance at temperatures above the optimum but did lead to elevated growth rates at the thermal optimum. Our results indicate L. corrugata is likely to be extremely susceptible to moderate ocean warming and marine heatwaves. Peak sea surface temperatures during summer in eastern and northeastern Tasmania can reach up to 20–21°C, and climate projections suggest that L. corrugata's thermal limit will be regularly exceeded by 2050 as southeastern Australia is a global ocean-warming hotspot. By identifying the upper thermal limit of L. corrugata, we have taken a critical step in predicting the future of the species in a warming climate.

Abstract Image

在海洋变暖的热点地区,当地特有的海藻 Lessonia corrugata 正被推到热极限之上。
由于气候变化(包括海洋变暖),海带在全球范围内逐渐减少。为了识别易受影响的物种,我们需要确定它们对温度升高的耐受性,并确定耐受性是否会因无机营养水平等同时发生的驱动因素而改变。这对于那些分布范围有限的物种尤为重要,因为它们可能已经面临热压力。为了确定分布范围受限的海带 Lessonia corrugata 的热耐受性,我们对幼体孢子体进行了实验室实验,以测量其在热范围(4-22°C)内的表现(生长、光合作用)。我们确定生长和光合作用的热上限约为 22-23°C,最适宜温度约为 16°C。为了确定提高无机氮供应量是否能增强热耐受性,我们比较了幼体在最适温度(16-23.5°C)及以上的低硝酸盐(4.5 μmol - d-1)和高硝酸盐(90 μmol - d-1)条件下的表现。硝酸盐富集并没有提高在最适温度以上的热性能,但确实导致了最适温度下生长率的提高。我们的研究结果表明,L. corrugata 可能极易受到适度海洋变暖和海洋热浪的影响。塔斯马尼亚东部和东北部夏季的海面最高温度可达 20-21°C,气候预测表明,到 2050 年,L. corrugata 的热极限将经常被超过,因为澳大利亚东南部是全球海洋变暖的热点地区。通过确定L. corrugata的热上限,我们为预测该物种在气候变暖条件下的未来迈出了关键的一步。
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来源期刊
Journal of Phycology
Journal of Phycology 生物-海洋与淡水生物学
CiteScore
6.50
自引率
3.40%
发文量
69
审稿时长
2 months
期刊介绍: The Journal of Phycology was founded in 1965 by the Phycological Society of America. All aspects of basic and applied research on algae are included to provide a common medium for the ecologist, physiologist, cell biologist, molecular biologist, morphologist, oceanographer, taxonomist, geneticist, and biochemist. The Journal also welcomes research that emphasizes algal interactions with other organisms and the roles of algae as components of natural ecosystems. All aspects of basic and applied research on algae are included to provide a common medium for the ecologist, physiologist, cell biologist, molecular biologist, morphologist, oceanographer, acquaculturist, systematist, geneticist, and biochemist. The Journal also welcomes research that emphasizes algal interactions with other organisms and the roles of algae as components of natural ecosystems.
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