Collaborative Research: Zooplankton restarts in a high-latitude marine ecosystem: species-specific recruitment and development in early spring

合作研究：浮游动物在高纬度海洋生态系统中重新启动：早春物种特异性的补充和发育

基本信息

批准号：
2222592
负责人：
Russell Hopcroft
金额：
$ 33.59万
依托单位：
University of Alaska Fairbanks Campus
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2022
资助国家：
美国
起止时间：
2022-10-01 至 2025-09-30
项目状态：
未结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=2222592&HistoricalAwards=false
关键词：
Collaborative Research Zooplankton restarts latitude

项目摘要

Global climate change and associated extreme weather events are increasingly impacting marine communities at all trophic levels and leading to shifts in the timing of life history events. This project is investigating the annual restart of the spring zooplankton community in the Gulf of Alaska in order to determine the timing of species-specific recruitment and growth. Zooplankton are small pelagic animals that are a critical link between microalgae and protozoans and higher levels in the food web including economically important fishes, birds and marine mammals. While their abundances and species composition have been documented over part of the annual cycle between late spring and fall, this project focuses on winter and early spring. The project integrates traditional methods with modern molecular approaches to characterize the diversity, development, feeding and physiology of zooplankton, especially the early developmental stages of copepods (small crustaceans). The goal is to determine which species are there, how many are present and where they are in the water column, and to reveal indicators of their health. Broader impacts include research training for three graduate students and at least four undergraduates in biological oceanography and physiological ecology. Outreach activities are focusing on broadening the public’s understanding of plankton ecology. An illustrated zooplankton guide for the Gulf of Alaska and plankton module for school teachers and students is being produced in collaboration with the Center for Alaskan Coastal Studies. Other plans include sponsorship of nature-drawing workshops on zooplankton and the production of an Art & Science traveling exhibit. This project is tracking zooplankton population abundances, species composition and developmental stages through the spring restart in a high-latitude fjord in the northern Gulf of Alaska. While the entire zooplankton community is being characterized, the main focus is on the difficult-to-assess early developmental stages of copepods, which dominate the late spring biomass in the region. Three central hypotheses guide the research: 1) high abundances of copepod nauplii are present before any measurable increases in food in surface waters; 2) species diversity increases between winter and spring, with nauplii from large lipid-rich capital-breeding species appearing first, followed by those from income- and hybrid-strategy species and finally nauplii that emerge from dormant eggs; 3) prior to the appearance of food resources, nauplii from capital-breeding species conserve resources by delaying development and entering a state of dormancy in the second and third naupliar stages. The project entails intensive depth-stratified field sampling to characterize the wild community, in combination with laboratory experiments on nauplii to determine their responsiveness to food. The prey are being characterized by measuring chlorophyll a, dietary and prey community DNA sequencing and flow cytometry to establish diversity and abundances. Size-fractionated zooplankton samples are being analyzed using microscopy and community DNA sequencing to ascertain species diversity, developmental stage distribution and abundances. Feeding activity is being measured using dietary DNA sequencing of nauplii followed by comparisons with the prey field. Dormancy in nauplii is being determined by differential gene expression of target genes (RT-qPCR) and high-throughput sequencing of mRNA of individuals (transcriptomics) and community samples (meta-transcriptomics). Short-term and long-term effects of food availability on dormancy, development and growth are being quantified in laboratory experiments. Broader impacts are focused on training of students in interdisciplinary research and state-of-art techniques, and public outreach to introduce plankton ecology to broader audiences.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

全球气候变化和相关的极端天气事件越来越多地影响所有营养级的海洋群落，并导致生活史事件发生时间的变化。该项目正在调查阿拉斯加湾春季浮游动物群落的年度重新启动，以确定。特定物种的补充和生长的时间。浮游动物是小型中上层动物，是微藻和原生动物之间的关键联系，并且在食物网中具有重要地位，包括经济上重要的鱼类、鸟类和海洋哺乳动物。已记录了春末和秋季之间的部分年度周期，该项目侧重于冬季和早春。该项目将传统方法与现代分子方法相结合，以表征浮游动物的多样性、发育、摄食和生理学，特别是早期发育。目标是确定桡足类（小型甲壳类动物）的物种、数量以及它们在水体中的位置，并揭示其健康状况的指标，包括对三名研究生和在职人员进行研究培训。至少四名生物海洋学本科生外展活动的重点是扩大公众对浮游生物生态学的了解。正在与阿拉斯加沿海研究中心合作制作阿拉斯加湾浮游动物图解指南和浮游生物模块。赞助浮游动物自然绘画研讨会以及制作艺术与科学巡回展览。该项目正在追踪高纬度峡湾春季重启期间的浮游动物种群丰度、物种组成和发育阶段。在阿拉斯加湾北部，虽然正在对整个浮游动物群落进行表征，但主要关注的是难以评估的桡足类动物的早期发育阶段，它们主导着该地区晚春的生物量，三个中心假设指导着这项研究： 1) 在地表水中的食物出现任何可测量的增加之前，桡足类无节幼体就出现了；2) 冬季和春季之间物种多样性增加，来自大型富含脂质的资本繁殖物种的无节幼体首先出现，然后是3）在食物资源出现之前，来自资本繁殖物种的无节幼体通过延迟发育并在第二和第二个阶段进入休眠状态来保存资源。该项目需要进行密集的深度分层实地采样，以表征野生群落，并结合实验室实验，通过测量叶绿素来确定它们对食物的反应。 a，饮食和猎物群落 DNA 测序和流式细胞术，以确定多样性和丰度使用显微镜和群落 DNA 测序分析大小分级的浮游动物样本，以确定物种多样性、发育阶段分布和丰度使用饮食 DNA 测量摄食活动。对无节幼体进行测序，然后通过目标基因的差异基因表达 (RT-qPCR) 和个体 mRNA 的高通量测序来确定无节幼体的休眠状态。（转录组学）和社区样本（元转录组学）正在实验室实验中量化食物供应对休眠、发育和生长的短期和长期影响。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。