机译:Coralline藻类的无机碳吸收策略:海洋酸化和变暖下进化谱系的可塑性
Griffith Univ Sch Environm & Sci Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia|Griffith Univ Australian Rivers Inst Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia;
Griffith Univ Sch Environm & Sci Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia|Griffith Univ Australian Rivers Inst Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia;
Griffith Univ Sch Environm & Sci Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia|Griffith Univ Australian Rivers Inst Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia;
Univ Tasmania Inst Marine & Antarctic Studies IMAS 28 Morrison St Hobart Tas 7000 Australia;
Griffith Univ Sch Environm & Sci Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia|Griffith Univ Australian Rivers Inst Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia;
Griffith Univ Sch Environm & Sci Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia|Griffith Univ Australian Rivers Inst Nathan Campus 170 Kessels Rd Nathan Qld 4111 Australia;
Algae; Crustose coralline algae; Dissolved inorganic carbon; Fractionation; Inorganic carbon uptake; Isotopes; Ocean acidification; Ocean warming; C-13/C-12;
机译:Coralline藻类的无机碳吸收策略:海洋酸化和变暖下进化谱系的可塑性
机译:全球变暖抵消了温带瘢痕疙瘩的海洋酸化的生态学压力
机译:掠食者增加了珊瑚藻对海洋酸化和变暖的敏感性
机译:开发用于海洋酸化研究的便携式碳系统传感器
机译:评估海洋酸化对甲壳素藻类礁石建筑物的影响
机译:不断变化的海洋中的红景天石:宿主-微生物相互作用介导海洋酸化下的珊瑚藻藻类复原力
机译:全球变暖与海洋酸化对珊瑚藻类氮吸收和同化的影响