In Memoriam

IF 2.4 3区 农林科学 Q1 FISHERIES
Fisheries Pub Date : 2024-10-29 DOI:10.1002/fsh.11186
John Boreman, Paul Rago, Carole Goodyear
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During his distinguished career, Phil authored nearly 200 scientific publications.</p><p>Phil grew up on the shores of the Gulf of Mexico in Gulfport, Mississippi, and became a skilled fisherman and hunter. A memorable Permit <i>Trachinotus falcatus</i> catch won him a first place award in an International Game Fish Association annual fishing contest. As an undergraduate he was on the All-American College Archery Team and qualified for the Olympic trials.</p><p>Following a BS in biology from Millsaps College and MS and PhD degrees in zoology from Mississippi State University, Phil conducted postdoctoral research at the University of Georgia's Savannah River Ecology Laboratory, where he met his future wife, Carole.</p><p>At Oak Ridge National Laboratory in the early 1970s, Phil was the first scientist to document the importance of entrainment of larval fish in power plant cooling water systems. His work on Striped Bass <i>Morone saxatilis</i> entrained in Hudson River power facilities led to development of Section 316(b) in the Clean Water Act. He next guided the U.S. Fish and Wildlife Service (USFWS)'s National Power Plant Team in Ann Arbor, Michigan. Notably, Phil's research on compensatory responses of fish populations to entrainment and impingement mortality led to metrics that support most stock assessments done today.</p><p>In the early 1980s, while at the USFWS National Fisheries Center–Leetown, Goodyear became synonymous with the Emergency Striped Bass Study, authorized by Congress to determine the causes and find remedies for the collapse of the Atlantic coast fishery. Phil demonstrated that reducing fishing mortality rates would rapidly rebuild the stock, irrespective of other contributing factors. His 1984 testimony before Congress paved the way for passage of the Atlantic Coast Striped Bass Conservation Act, and by the early 1990s, the coastal migratory stock had rebuilt to historical levels. Phil also developed a comprehensive spatial model for Atlantic Salmon <i>Salmo salar</i> that guided USFWS efforts on restoration and impacts of hydropower facilities.</p><p>In 1987, Phil moved to the National Marine Fisheries Service at the Southeast Fisheries Science Center in Miami. His visionary science for management of overfished Gulf of Mexico fisheries and estimation of biological reference points are still widely used, not just in the Gulf but also in the South Atlantic and Caribbean. Phil understood that models were only as good as their data. 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引用次数: 0

Abstract

C. Phillip “Phil” Goodyear

November 15, 1944 – April 25, 2024

Fishery science lost a leader in April 2024 with the death of C. Phillip (Phil) Goodyear, an internationally recognized expert in fish population dynamics. Phil was a member of AFS since 1965, and in 2013 he received the AFS Oscar Elton Sette Award for Sustained Excellence in Marine Fishery Biology. He influenced important environmental legislation and public policy by translating exquisite theory into practical recommendations on many contentious fisheries issues, via testimony to U.S. Congressional committees, state legislatures, and federal agencies, and advice to a host of fisheries organizations. During his distinguished career, Phil authored nearly 200 scientific publications.

Phil grew up on the shores of the Gulf of Mexico in Gulfport, Mississippi, and became a skilled fisherman and hunter. A memorable Permit Trachinotus falcatus catch won him a first place award in an International Game Fish Association annual fishing contest. As an undergraduate he was on the All-American College Archery Team and qualified for the Olympic trials.

Following a BS in biology from Millsaps College and MS and PhD degrees in zoology from Mississippi State University, Phil conducted postdoctoral research at the University of Georgia's Savannah River Ecology Laboratory, where he met his future wife, Carole.

At Oak Ridge National Laboratory in the early 1970s, Phil was the first scientist to document the importance of entrainment of larval fish in power plant cooling water systems. His work on Striped Bass Morone saxatilis entrained in Hudson River power facilities led to development of Section 316(b) in the Clean Water Act. He next guided the U.S. Fish and Wildlife Service (USFWS)'s National Power Plant Team in Ann Arbor, Michigan. Notably, Phil's research on compensatory responses of fish populations to entrainment and impingement mortality led to metrics that support most stock assessments done today.

In the early 1980s, while at the USFWS National Fisheries Center–Leetown, Goodyear became synonymous with the Emergency Striped Bass Study, authorized by Congress to determine the causes and find remedies for the collapse of the Atlantic coast fishery. Phil demonstrated that reducing fishing mortality rates would rapidly rebuild the stock, irrespective of other contributing factors. His 1984 testimony before Congress paved the way for passage of the Atlantic Coast Striped Bass Conservation Act, and by the early 1990s, the coastal migratory stock had rebuilt to historical levels. Phil also developed a comprehensive spatial model for Atlantic Salmon Salmo salar that guided USFWS efforts on restoration and impacts of hydropower facilities.

In 1987, Phil moved to the National Marine Fisheries Service at the Southeast Fisheries Science Center in Miami. His visionary science for management of overfished Gulf of Mexico fisheries and estimation of biological reference points are still widely used, not just in the Gulf but also in the South Atlantic and Caribbean. Phil understood that models were only as good as their data. To that end, he made groundbreaking contributions to the science of properly sampling fisheries for growth and age composition.

For the past 28 years, Phil worked for The Billfish Foundation (TBF) as its consulting scientist, advancing stock assessment methodologies for highly migratory oceanic species. Using oceanographic data, he developed three-dimensional maps of species distributions to derive abundance indices. His seminal papers on the oxygen minimum zone in the equatorial Atlantic described its effects on the vertical distribution of fish and how these effects are exacerbated by climate change. This groundbreaking research has been a catalyst for interdisciplinary science worldwide.

Long before simulation studies became the norm, Phil used simulation models to translate uncertainty of current observations into future consequences. His deep understanding of basic biology and animal behavior, developed during a lifetime of fishing and hunting, shaped his ability to craft meaningful models to provide simple, but not simplistic, guidance.

Phil's scientific curiosity and desire to keep learning about the natural world never faded. At the time of his death, he was editing the manuscript of a study he initiated on age and growth of Black Crappie Pomoxis nigromaculatus in the Florida lake on which he and Carole resided.

The personal testimonies of friends and colleagues paint the portrait of a quiet man of great intellect and few words. You could not find a more patient, more supportive mentor. His respectful and calm demeanor was coupled with penetrating insights, deep thought, and extraordinary intuition.

He will be deeply missed by those who were privileged to know him personally and by those who know him only through his scientific legacy.

Abstract Image

悼念
C.菲利普-古德伊尔(C. Phillip "Phil" Goodyear)1944年11月15日-2024年4月25日 国际公认的鱼类种群动力学专家菲利普-古德伊尔(C. Phillip (Phil) Goodyear)于2024年4月逝世,渔业科学失去了一位领袖。菲尔自1965年以来一直是美国渔业协会的会员,2013年,他获得了美国渔业协会颁发的海洋渔业生物学奥斯卡-埃尔顿-塞特持续卓越奖(Oscar Elton Sette Award for Sustained Excellence in Marine Fishery Biology)。他通过向美国国会委员会、州立法机构和联邦机构作证,以及向许多渔业组织提供建议,将精湛的理论转化为对许多有争议的渔业问题的实用建议,从而影响了重要的环境立法和公共政策。在他杰出的职业生涯中,菲尔撰写了近 200 篇科学出版物。菲尔在密西西比州格尔夫波特的墨西哥湾畔长大,并成为一名熟练的渔民和猎人。一次令人难忘的捕获 Permit Trachinotus falcatus 的经历为他赢得了国际狩猎鱼类协会年度钓鱼比赛的第一名。在获得米尔萨普学院生物学学士学位和密西西比州立大学动物学硕士和博士学位后,菲尔在佐治亚大学萨凡纳河生态实验室从事博士后研究,并在那里遇到了他未来的妻子卡罗尔。20 世纪 70 年代初,在橡树岭国家实验室,菲尔是第一位记录电厂冷却水系统中幼鱼夹带重要性的科学家。他对哈德逊河发电设施中夹带的带鱼 Morone saxatilis 进行的研究促成了《清洁水法案》第 316(b)条的制定。之后,他在密歇根州安阿伯市指导了美国鱼类和野生动物管理局(USFWS)的国家发电厂团队。20 世纪 80 年代初,古德伊尔在美国鱼类与野生动物管理局利顿国家渔业中心工作期间,成为了紧急带鱼研究(Emergency Striped Bass Study)的代名词,该研究由国会授权,旨在确定大西洋沿岸渔业崩溃的原因并找到补救措施。菲尔证明,无论其他因素如何影响,降低捕捞死亡率都能迅速重建鱼群。他 1984 年在国会的证词为《大西洋沿岸带鱼保护法案》的通过铺平了道路,到 20 世纪 90 年代初,沿海洄游鱼类种群已恢复到历史水平。菲尔还开发了大西洋鲑鱼的综合空间模型,为美国联邦水产局在水电设施的恢复和影响方面的工作提供了指导。1987 年,菲尔调到迈阿密东南渔业科学中心的国家海洋渔业服务局工作。他在墨西哥湾过度捕捞渔业管理和生物参考点估算方面的远见卓识至今仍被广泛应用,不仅在墨西哥湾,在南大西洋和加勒比海也是如此。菲尔深知,模型的好坏取决于数据。在过去的 28 年里,菲尔一直担任长咀鱼基金会(TBF)的顾问科学家,推进高度洄游海洋物种的种群评估方法。他利用海洋学数据绘制了物种分布的三维地图,从而得出丰度指数。他关于赤道大西洋最低含氧区的开创性论文描述了最低含氧区对鱼类垂直分布的影响,以及气候变化如何加剧这些影响。早在模拟研究成为常规之前,菲尔就利用模拟模型将当前观测的不确定性转化为未来的后果。菲尔一生从事捕鱼和狩猎,对基础生物学和动物行为有着深刻的理解,这造就了他建立有意义模型的能力,从而提供简单但不简单的指导。在他去世时,他正在编辑他发起的一项研究的手稿,这项研究是关于他和卡罗尔居住的佛罗里达湖中黑鲷鱼 Pomoxis nigromaculatus 的年龄和生长情况。你找不到比他更耐心、更支持你的导师了。有幸亲身了解他的人和通过他的科学遗产了解他的人都将深深地怀念他。
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来源期刊
Fisheries
Fisheries 农林科学-渔业
CiteScore
3.90
自引率
7.10%
发文量
141
审稿时长
>24 weeks
期刊介绍: Fisheries is a monthly magazine established in January 1976, by the American Fisheries Society (AFS), the oldest and largest professional society representing fisheries scientists. Fisheries features peer-reviewed technical articles on all aspects of aquatic resource-related subjects, as well as professional issues, new ideas and approaches, education, economics, administration, and law. Issues contain features, essays, AFS news, current events, book reviews, editorials, letters, job notices, chapter activies, and a calendar of events.
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