CoccoTrait: Revealing Coccolithophore Trait diversity and its climatic impacts

CoccoTrait：揭示颗石藻性状多样性及其气候影响

• 批准号: NE/X001261/1
• 负责人: Fanny Monteiro
• 金额: $ 82.84万
• 依托单位: University of Bristol
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2022
• 资助国家: 英国
• 起止时间: 2022 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FX001261%2F1
• 关键词: CoccoTrait; Revealing; Coccolithophore; Trait; diversity

Thanks to tiny organisms called phytoplankton, the ocean plays a crucial role in regulating atmospheric CO2 and hence our climate. Phytoplankton are primary producers and use CO2 and light to grow. Despite being tiny, they grow in enormous quantities in the ocean, making them one of the most important primary producers of the planet. One marine phytoplankton, the coccolithophores, are particularly important because they take up CO2 and calcify simultaneously. Calcification is also vital because it changes the ocean's ability to take up CO2. Coccolithophores calcify beautifully ornamented plates of distinctive shapes. Each shape occupies a different ocean region, proving that morphology is critical at controlling coccolithophore distribution and contribution of the ocean CO2 uptake. About 250 species of coccolithophore live in the ocean, showing a variety of morphology, cell size and calcite content. However, most studies of coccolithophores rely on a single species. This species is the most abundant but one of the smallest and least calcified coccolithophore species; hence it is not representative of the coccolithophore community as a whole. CoccoTrait aims to re-assess the role of coccolithophore in our climate system by including a fuller appreciation of its biodiversity. We will take advantage of new data that describe coccolithophore's main traits (e.g., size, morphology, calcite content) and apply combined statistical and mechanistic methods to address two goals: (1) Defining the key species that characterise coccolithophore biodiversity. Not all species matter, so it is critical to identify the ones that matter the most for the carbon cycle. To do that, we will use trait-based ecology, which recognises groups of species with similar traits and functions, allowing us to study complex biological systems in a simple yet meaningful way. (2) Determining the influence of coccolithophore diversity on the ocean carbon cycle and how it will change with climate change. Once we identify the critical coccolithophore species, we will estimate how much they contribute to ocean carbon productions and vary with climate change. Coccolithophores are already impacted by ocean warming and acidification, changing which species influence the ocean carbon cycle. We will use state-of-the-art modelling to assess their global contribution to modern and future climate. The project combines statistical and mechanistic methods, which is unique in studying marine plankton ecology but essential to accurately estimate the climatic impacts of ocean biodiversity. We will validate this approach with coccolithophore, showing the potential to fully represent the complex ecology of other plankton to map their role in the climate system.

多亏了被称为浮游植物的微小生物，海洋在调节大气二氧化碳和气候方面发挥着至关重要的作用。浮游植物是初级生产者，利用二氧化碳和光来生长。尽管很小，但它们在海洋中大量生长，使它们成为地球上最重要的初级生产者之一。一种海洋浮游植物，颗石藻，特别重要，因为它们同时吸收二氧化碳和钙化。钙化也是至关重要的，因为它改变了海洋吸收二氧化碳的能力。颗石藻使形状独特的美丽的钙化板钙化。每个形状占据不同的海洋区域，证明形态是控制颗石藻分布和海洋CO2吸收的贡献至关重要。大约有250种颗石藻生活在海洋中，表现出各种形态、细胞大小和方解石含量。然而，大多数对颗石藻的研究都依赖于单一物种。本种是最丰富的，但最小和钙化最少的颗石藻种之一;因此，它不是整个颗石藻群落的代表。CoccoTrait旨在通过更全面地了解其生物多样性来重新评估颗石藻在我们气候系统中的作用。我们将利用描述颗石藻主要特征的新数据（例如，大小，形态，方解石含量），并应用统计和机械相结合的方法，以解决两个目标：（1）定义的关键物种，coccolithophore生物多样性。并非所有物种都重要，因此确定对碳循环最重要的物种至关重要。为此，我们将使用基于特征的生态学，它识别具有相似特征和功能的物种群，使我们能够以简单而有意义的方式研究复杂的生物系统。(2)确定颗石藻多样性对海洋碳循环的影响以及它将如何随气候变化而变化。一旦我们确定了关键的颗石藻物种，我们将估计它们对海洋碳生产的贡献，并随气候变化而变化。颗石藻已经受到海洋变暖和酸化的影响，改变了影响海洋碳循环的物种。我们将使用最先进的模型来评估它们对现代和未来气候的全球贡献。该项目结合了统计和机械方法，这在研究海洋浮游生物生态学方面是独一无二的，但对于准确估计海洋生物多样性的气候影响至关重要。我们将用颗石藻验证这种方法，显示出完全代表其他浮游生物复杂生态的潜力，以绘制它们在气候系统中的作用。

项目成果

The FORCIS database: A global census of planktonic Foraminifera from ocean waters.

• DOI: 10.1038/s41597-023-02264-2
• 发表时间: 2023-06-03
• 期刊: SCIENTIFIC DATA
• 影响因子: 9.8
• 作者: Chaabane, Sonia;de Garidel-Thoron, Thibault;Giraud, Xavier;Schiebel, Ralf;Beaugrand, Gregory;Brummer, Geert-Jan;Casajus, Nicolas;Greco, Mattia;Grigoratou, Maria;Howa, Helene;Jonkers, Lukas;Kucera, Michal;Kuroyanagi, Azumi;Meilland, Julie;Monteiro, Fanny;Mortyn, Graham;Almogi-Labin, Ahuva;Asahi, Hirofumi;Avnaim-Katav, Simona;Bassinot, Franck;Davis, Catherine V.;Field, David B.;Hernandez-Almeida, Ivan;Herut, Barak;Hosie, Graham;Howard, Will;Jentzen, Anna;Johns, David G.;Keigwin, Lloyd;Kitchener, John;Kohfeld, Karen E.;Lessa, Douglas V. O.;Manno, Clara;Marchant, Margarita;Ofstad, Siri;Ortiz, Joseph D.;Post, Alexandra;Rigual-Hernandez, Andres;Rillo, Marina C.;Robinson, Karen;Sagawa, Takuya;Sierro, Francisco;Takahashi, Kunio T.;Torfstein, Adi;Venancio, Igor;Yamasaki, Makoto;Ziveri, Patrizia
• 通讯作者: Ziveri, Patrizia

ForamEcoGEnIE 2.0: incorporating symbiosis and spine traits into a trait-based global planktic foraminiferal model

ForamEcoGENIE 2.0：将共生和脊柱特征纳入基于特征的全球浮游有孔虫模型

• DOI: 10.5194/gmd-16-813-2023
• 发表时间: 2023
• 期刊: Geoscientific Model Development
• 影响因子: 5.1
• 作者: Ying R

The Foraminiferal Response to Climate Stressors Project: Tracking the Community Response of Planktonic Foraminifera to Historical Climate Change

有孔虫对气候应激源的反应项目：追踪浮游有孔虫对历史气候变化的社区反应

• DOI: 10.3389/fmars.2022.827962
• 发表时间: 2022
• 期刊: Frontiers in Marine Science
• 影响因子: 3.7
• 作者: De Garidel-Thoron T

A critical trade-off between nitrogen quota and growth allows Coccolithus braarudii life cycle phases' to exploit varying environment

氮配额和生长之间的关键权衡使得布氏颗石藻生命周期阶段能够利用不同的环境

• DOI: 10.5194/egusphere-2023-880
• 发表时间: 2023
• 作者: De Vries J