Explore Marine 新金沙体育主页的研究
The University of New England School of Marine and Environmental Programs serves as an incubator for forward-looking marine research. 学校提供教师。, students, and partner researchers with the information and resources they need to contribute to global conversations regarding marine science, policy, 和管理.
我们的目标是在广泛的跨学科领域创造新知识, 包括海洋科学, 海洋生态系统, 保护, restoration, business, sustainable fisheries and 生态水产养殖, 生态系统, and marine sustainability science.
我们的沿海环境, 先进的设施, 教师的专业知识带来了无数的海洋研究机会. UNE students serve as key contributors to this work — while also getting the hands-on experience they need for further study and future careers.
研究领域
海洋科学领域与覆盖地球大部分的浩瀚海洋一样广阔多样. 在UNE,我们涉及海洋科学的各个方面,特别关注以下研究领域.
应用海事技术
应用海洋技术是一个至关重要的海洋项目研究领域,横跨所有其他领域. Robotics, 研究血管, remote and autonomous underwater vehicles, 环境监测, 建模是使现代海洋研究得以进行的重要工具. 该领域的研究人员对海洋技术的创新和新应用感兴趣.
Part of our dedication to experiential learning includes providing opportunities to garner real-world skills that make you sought after in the job market and graduate education institutions. 我们与水生动物生命支持运营商(AALSO)的合作就是一个很好的例子。. AALSO is a 501 c6 nonprofit organization that focuses on the education and training of aquatic life support operators around the world. AALSO members are those behind the scenes at research institutions and large public aquariums around the world who design, construct, and maintain large aquatic husbandry systems. AALSO还提供在行业中具有真正分量的专业资格认证和能力认证. 澳大利亚国立大学是仅有的两所被AALSO批准为我们的学生管理这些考试的学术机构之一. Meaning you can walk out the door with a degree in hand, and a professional industry certification in your back pocket.
Researchers:
Boats, for obvious reasons, are important to marine research. At UNE we are fortunate enough to have a fleet of research and education vessels [ATS1] from 18’ to 35’ that are utilized in our programs. Add to this our faculty and 专业人员 with professional vessel operation credentials and experience operating and conducting science aboard ships and 研究血管 all over the world — and UNE Marine programs are well suited to help you gain the important technical knowledge needed to be proficient and safe both operating and conducting research at sea.
Researchers: Tim Arienti
The oceans cover more than 70% of the planet. 海洋中生命和生态系统的相互联系非常复杂, and distinctly linked to both the land and our atmosphere. 如果没有计算机模型的强大预测能力,这种复杂性几乎是不可能理解的. These models, based on data collected in the field, 从卫星, 地质记录, 和其他地方, 用来预测(和预测)从鱼类数量和食物网到海洋环流的一切, hurricanes, 气候变化.
Researchers:
海洋机器人和智能技术——以水下无人机的形式, 载人潜水器, 水质传感器, 海洋浮标, and camera systems — is a rapidly growing, and increasingly important marine field. 在科技时代, 这些工具正在成为全面开展尖端海洋研究的重要组成部分.
Researchers:
海洋生物生物学
Our Marine Programs faculty and 专业人员 conduct a wide range of research in the areas of biology and ecology of marine organisms. This research area is very broad and ranges from marine genetics to the migration patterns of large animals like sharks, seals, and whales. From seaweed to sharks — plankton to pinnipeds (seals!)我们的团队负责这一切.
Food web dynamics focuses on how energy moves through organisms in an ecosystem through primary productivity (photosynthesis) and consumers. Researchers in our Marine programs study these interactions to create a “who’s eating who” web of connections between organisms in an ecosystem.
Researchers: 凯莉·拜伦博士.D.
Invasive species are any species introduced to an ecosystem in which they are not native that then go on to cause disruption or harm to the functioning of that ecosystem. 海洋生物善于在船舶的压载水中搭便车, through hitchhiking on marine debris, or even through deliberate introduction. 新金沙体育主页的研究人员研究这些生物及其在缅因湾及其他地区的生态相互作用和影响.
Researchers: 马库斯·弗雷德里希博士.D.
有20多个,地球上有超过1000种海洋和淡水硬骨鱼, 而软体动物(蜗牛), bivalves, etc.) comprise more than 85,000 known species. 我们的海洋中蕴藏着大量的生物多样性, 绝大多数包含在海洋无脊椎动物中. 有如此多的多样性, 研究海洋无脊椎动物的机会几乎是无穷无尽的.
Researchers:
Life in the sea poses challenges unique to oceanic organisms, especially the smallest of those (microorganisms). By virtue of being immersed in water, they are at the mercy of the tides, currents, chemistry, 以及海洋地质学. 海洋学是研究这些物理性质和海洋物理过程的学科, chemical, 和地质. Oceanography researchers at UNE study how these oceanographic components interact with each other and affect life in the sea.
Researchers:
除了少数例外,海洋微生物和浮游生物构成了海洋食物网的基础. 小而强大的浮游生物是海洋生命的燃料. 我们海洋项目的研究人员研究了生物学的许多方面, ecology, 甚至是这些重要而多样的生物的化学成分.
Researchers:
The largest organisms in an ecosystem are often sentinels of ecosystem health and serve key roles in the health and balance of our oceans. 研究人员在缅因湾和全球范围内研究鲨鱼和海洋哺乳动物的生物学和生态学.
Researchers:
来自海洋的食物
到2050年,全球人口将达到100亿, 了解海洋和我们吃的东西之间的相互作用比以往任何时候都更重要. Our location on the coast of Maine has a deep heritage and connections to the people and communities who have harvested food from the sea, and the ecosystems that provide it. 我们在这一重点领域有强大的研究和教育计划,包括渔业科学和管理, 生态水产养殖, 海洋创业, migration of highly migratory species, 食物网生态学.
渔业科学和管理都是高度交织的不同学科. Fisheries science creates the knowledge and data used in order for fisheries management to make the best possible policies to manage a fishery. The policies and the priorities set forth by management then in turn creates the framework for fisheries science to design and conduct research. 在新金沙体育主页,我们的研究人员在这一重要问题的两个方面都具有专业知识.
Researchers: Susan Farady
Globally, 咸水观赏鱼和水族产业价值150亿美元, resulting in the importation of more than 400 fish species. And yet, only 10% of these fish are cultured. Ornamental aquaculture is the application of aquaculture techniques and protocols to produce fish and other organisms used for decorative purposes. This practice can help greatly reduce pressure on wild fish populations and increase the sustainability of a hobby growing rapidly on a global scale.
Researchers:
到2050年,全球人口预计将超过100亿. That is a lot of mouths to feed. And yet, while the oceans cover more than 70% of our planet, 只有2%的粮食生产(包括所有渔业和海洋养殖场)来自海洋. 在未来,全球海洋生产食物的压力必然会增加. 其中大部分将来自不仅仅生产鱼类的海洋养殖场, 但贝类, seaweeds, 以及其他海洋食品. 我们海洋项目的研究人员研究了与海鲜和水产养殖有关的整套问题.
Researchers:
人类对海洋的影响
人类对海洋影响的证据无处不在,而不仅仅局限于我们的沿海海洋. 塑料和化学物质已经从全球海洋的最深处被记录下来, while climate change affects all aspects of the ocean. 我们越来越不能把研究自然海洋环境与人类的影响分开. Fisheries, 塑料微粒, policy, pollution, 保护, and restoration all fall into this category. UNE海洋项目教员, 专业人员, 学生们专注于研究和解决人类对海洋的各种影响.
Our climate is changing — rapidly. Its impacts are felt broadly across our planet, 尤其是我们的海洋, which play crucial roles in mediating, moderating, 塑造加速的地球变化对全球的影响. This is exemplified in our own backyard, 缅因湾的变暖速度比其他90%的海水都要快. Rather than a discrete area of study, UNE海洋项目的气候变化研究更像是一把伞. One of the most important planetary challenges of our time, climate change research is integrated by necessity into almost all of our Marine Programs research and scholarship areas of focus.
Researchers:
Not all human impacts on the sea are negative. Human interventions in the forms of 保护 and restoration science and policies can produce real and impactful improvement in the marine environment. Ecosystem and habitat restoration, 入侵物种的减少和管理以及海洋宣传都是新海洋大学海洋项目的一部分.
Researchers:
In many ways, the ocean represents a vast resource with the potential for creating economic growth in a sustainable or even restorative fashion. 这里的机会包括可持续渔业和水产养殖企业, 海洋机器人, 传感器与遥感, shipping, 增值的海洋衍生新金沙体育,如化妆品和营养品, 甚至纺织品和时装.
Researchers: Jeri Fox
海洋是万物的下游,而且时间足够长, everything ends up in the ocean. Marine pollution impacts our oceans through many pathways and in many forms: excess nutrients and runoff from urban and agricultural lands, 废水中的细菌, 我们工业中的化学物质, 还有来自, well, everywhere…are just a few examples. 我们海洋项目的研究人员研究污染物是如何影响海洋生物和生态系统的, 以及减轻污染的技术和防止污染进入海洋的政策.
Researchers:
facilties
新金沙体育主页提供了一些最好的 海洋科学设施 你可以从我们在比德福德的主校区访问所有这些, Maine.
Tour the Marine Science Center
Undergraduate Research Opportunities
At UNE, 早在大一的时候,你就会在野外和水上活动, 在你的学术生涯中有很多额外的新金沙体育主页科研究机会.
实践海洋研究
研究奖学金
In addition to lab classes and faculty lab positions, UNE provides pathways for students to obtain research experience through fellowships from partners and programs including Pratt & 惠特尼,布里斯托尔海鲜,SEANET,和暑期新金沙体育主页科生研究经验.
出版物
Our faculty, 专业人员, and students are thought leaders in their fields, 发表在一些世界顶级海洋科学和水生科学期刊上.
研究出版物
2019年的出版物
苏里科沃斯基做J.A., Golet, W.霍弗梅尔,E.R., Driggers W.B.纳坦森,L.J., Carlson, A., Sweezy, B.A.卡尔森,J. 2019. Quantifying post-release mortality for dusky sharks, Carcharhinus obscurus, captured in the US pelagic longline fishery.
2018年的出版物
Hylton S.魏斯曼A.苏里科夫斯基. (in press) Identification of potential wintering habitat for threatened Atlantic Sturgeon (Acipenser oxyrinchus oxyrinchus) in Saco Bay, Maine. 濒危物种研究.
Weissman, A.曼德尔曼,J. W., Rudders, D. B.苏里考斯基,J. A. 扇贝疏浚渔业中捕获和处理压力对美洲Lophius的影响. 保护生理学.
Hayne, A.H.P., G.R. Poulakis, J.C. Seitz, and J.A. Sulikowski. 2018. 佛罗里达西南部雌性南方黄貂鱼(美洲黄貂鱼)的初步年龄估计, USA. 海湾和加勒比研究.
Hodgdon, C.T.C .田纳西豪斯., Koh, W., Fox, J., & 苏里科沃斯基做J. 2018. 中南河口短鼻鲟:独特栖息地的评估. 中南河口短鼻鲟:独特栖息地的评估. Journal of Applied Ichthyology.
Prohaska BK, Tsang PCW, Driggers, WB III, Hoffmayer ER, Wheeler CR苏里科夫斯基A. 延迟放血对两种蛛科动物血浆类固醇激素浓度的影响. J应用鱼腥醇. 2018;00:1–6. http://doi.org/10.1111/jai.13700
Wheeler CR, Novak AJ, Wippelhauser GS苏里科夫斯基A. 2018. 大西洋鲟外部性别测定方法的有效性. Journal of Applied Ichthyology.
2017年的出版物
Bricelj, V.M.; Kraeuter, J.N.弗林,G., 2017. Status and trends of hard clam, Mercenaria Mercenaria, populations in a coastal lagoon ecosystem, Barnegat Bay–Little Egg Harbor, New Jersey. In:布坎南,G.A.; Belton, T.J.鲍德尔,B. (eds.),新泽西州巴内加特湾-小蛋港综合评估. Journal of Coastal Research, Special Issue No. 78, pp. 205–253. 椰子溪(佛罗里达)
Knotek, R.K., Rudders, D.B.曼德尔曼,J.W., Benoît, H.P.苏里考斯基,J.A. 2017. 新英格兰扇贝疏浚渔业中被丢弃的rajids的生存. J. Fish. Research.
Himes A, Balschi WS, Pelletier G, Frederich M(2017)欧洲绿蟹的色相特异性离子调控, Carcinus maenas, in an oscillating salinity environment. Journal of Shellfish Research, 36(2): 465-479.
Kunkel JG , M Rosa, A Bahadur. (2017). 美国龙虾壳结构的3d - x射线断层扫描:综述. Fisheries Research 186, Part 1: 372-382.
苏里科沃斯基做J.A, Benoît H.P.W .卡皮扎诺.C., Knotek R.J.曼德尔曼.W., Platz, T.D.B., 2017. 评估冬季滑冰的状况和丢弃死亡率, Leucoraja ocellata, 大西洋安康鱼(Lophius americanus)沉刺网渔业的捕获和处理. J. Fish. Research.
St-Gelais A.T., Aeppli C., Burnell C. A.科斯塔-皮尔斯,B. A. (2017). 西北大西洋角鲨(Squalus acanthias)非二恶英样多氯联苯指示剂. 海洋污染公报. (http://doi.org/10.1016/j.marpolbul.2017.05.001)
特里萨·L·齐韦琴斯基. 和Greaney, Nicole E. 2017. 雌性激素模拟物对三棘棘鱼胆度的性别和剂量依赖性影响, Gasterosteus aculeatus, 来自一个溯河种群. J. Exp. Mar. Biol. Ecol.
2016年的出版物
Costa-Pierce B.A. 2016. 人类世地球生存的海洋食物生态系统,p. 301-320. In: E.M. Binder (ed.) World Nutrition Forum: Driving the Protein Economy. Erber AG,奥地利. 368pp. http://www.biomin.net
Slater, M. A., P. A. Morgan, C. E. 蒂尔伯格和S. E Travis, 环境变量, 非阿尔效应, 入侵Saco河口的外来芦苇群落的斑块活力, Maine, USA, 水生生物学, [in press].
St. Gelais, A. T.查维斯-丰内格拉,A., Moulding A. L.科斯米宁,V. N., Gilliam, D. S.. (2016) Siderastrea siderea spawning and oocyte resorption at high latitude. Invertebrate Reproduction and Development. 212-222.http://dx.doi.org/10.1080/07924259.2016.1194334.
St. Gelais, A. T.查维斯-丰内格拉,A.布朗利,A. S., Kosmynin V. N.A. L., Gilliam, D. S. (2016) Fecundity and sexual maturity of the coral Siderastrea siderea at high latitude along the Florida Reef Tract, USA. 无脊椎动物生物学. 135: 46-57. DOI: 10.1111/ivb.12115
Novak, A.J., A. E. Carlson, C. R. Wheeler, G.S. Wipplehauser和J. A. Sulikowski. 2016. 大西洋鲟鱼的重要觅食栖息地, 猎物分布, and movement patterns in the Saco River estuary, Maine. Transactions of the American Fisheries Society.
Wheeler CR, Novak AJ, Wipplehauser GS苏里科夫斯基A (2016) Using circulating reproductive hormones for sex determination of Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus) in the Saco River estuary, Maine. Conserv杂志
Smith, K. M., Byron, C. J., & 苏里科沃斯基做J. A. 2016. 河口食物网中双穴居鱼类捕食-被捕食关系的建模. 海洋和沿海渔业:动态、管理和生态系统科学. 8: (In Press)
Byron, C.J., Morgan, A. 2016. 多刺角鲨在缅因湾灰海豹和港海豹饮食中的潜在作用. Marine Ecology Progress Series. 550:249-270.
Kelly E. 潘诺耶,安东尼·R. Himes, 马库斯Frederich(2016)入侵欧洲绿蟹性别和色相对离子调节的影响, Carcinus maenas. 海洋生物学报(英文版),36 (6):1145 - 1145. DOI 10.1007/s00227-016-2910-2
Moriarty, P.E., Byron, C.J.潘兴,A.J.斯托克韦尔,J.D., Xue, H. 2016. 预测大西洋大马哈鱼(Salmo salar)产卵后的洄游路径. Marine Biology 163(74): 11pgs.
Chapman, E.J.D . Childers.L.Vallino J.J. 2016. 热力学第二定律在其历史上是如何影响生态系统生态学的. 生物科学,66:27-39.
St. Gelais, A. 和Costa-Pierce B -西北大西洋冬季捕获的汞浓度, 雄性角鲨(Squalus acanthias):人类消费汞的地理比较和风险回报框架. 海洋污染公报 102 (2016), pp. DOI信息:10.1016/j.marpolbul.2015.12.009
2015年的出版物
Kunkel JG, M Rosa*, A Bahadur. (2015). 用x射线断层扫描对美国龙虾壳进行现代解读. The Lobster Newsletter 28(2):19-21.
Kunkel JG. (2015). My Adventure Volunteering on NOAA Ships. 渔业40 (8):360 - 361.
Munroe, D., J. Kraeuter, B. Beal, K. Chew, M. Luckenbach,和C.P. Peterson. 2015. 保护蛤蜊捕食者对食物生产是有效和必要的. Mar. Poll. Bull. 100:47-52.
McDermott, J.J. and J. N. Kraeuter. 2015. Occurrence of first crab instars of the Atlantic ghost crab Ocypode quadrata (Decapoda: Brachyura: Ocypodidae) along the coast of Maine; USA. Proc. Biol. Soc. 华盛顿128:98 - 102.
Byron, C.J.C .田纳西豪斯. 2015. Commonality in structure among food web networks. 网络生物学. 5(4):146-162.
Byron, C.J., Jin, D., Dalton, T.M. 2015. 牡蛎养殖可持续管理的综合生态经济模型框架. Aquaculture. 447: 15-22.
Munroe, D.克罗伊特,J., Beal, B., Chew, K.卢肯巴赫,M. 彼得森,C.P. 2015. 保护蛤蜊捕食者对食物生产是有效和必要的. 海洋污染公报 100: 47–52.
Rudnicky, B. R.*, Smith, K. M.苏里科夫斯基,J. A. 2015. 南缅因河口夏季比目鱼首次观察. Accepted. North East. Nat.
Yund,P. O., C. E. 蒂尔伯格和M. A. McCartney, Across-shelf distribution of Mytilus edulis and M. 缅因湾北部的柔轮蝇幼虫:种群连通性和物种范围边界的后果, 英国皇家学会开放科学, [accepted], 2015.
Goodchild, C.G.弗雷德里希,M., Zeeman, S.I. 2015. amp激活的蛋白激酶是暴露于城市污水的淡水贻贝能量状态的生物标志物. Science of the Total Environment: (512:201-209).
Goodchild, C.G.弗雷德里希,M., Zeeman, S.I. 2015. Is altered behavior linked to cellular energy regulation in a freshwater mussel (Elliptio complanata) exposed to triclosan? 比较生物化学和生理学C部分:(179:150-157).
Tilburg, C. E., L. M. Jordan, A. E. Carlson, S. I. 塞曼和P. O. Yund, 2015 The effects of precipitation, 河道流量, 土地利用和沿海循环对缅因州沿海水质的影响, 英国皇家学会开放科学, (in press).
Meserve, M.M., Ono, K.A., Perlut, N.G. 缅因州大蓝鹭的育雏供给和巢生存. Northeast Naturalist 22: (in press)
Thomas, A., Ono, K. 海海豹幼崽恢复后血氧储量的潜水相关变化. 公共科学图书馆:(在印刷中)
Knotek, R.J., Gill, S.M., Rudders, D.B.曼德尔曼,J.W., Benoît, H.P.苏里考斯基,J.A. 2015. The development of a low-cost refrigerated flow-through seawater system for at-sea estimation of post-release mortality. 渔业研究(已出版).
Bloodsworth K.H., Tilburg, C.E. Yund, P.O. 河流羽流对Saco湾短爪蟹和蛹双壳类幼虫分布的影响, Maine. 河口和海岸. In press.
Morgan, A. C.和苏里科夫斯基., J.A. 2015. 带刺角鲨在美国东北大陆架生态系统中的作用以及它是如何随时间变化的. Accepted Mar. and Fresh. Res.
Aronson, R.B.弗雷德里希,M.; Price, R.; Thatje, S.,(2015)南极碎壳蟹回归的前景. Journal of Biogeography 42, 1–7 DOI: 10.1111/jbi.12414
海洋研究伙伴关系
您是否代表寻求与新金沙体育主页合作开展海洋科学倡议的组织? Please 联系查尔斯·蒂尔伯格,海洋与环境科学学院院长.