Larry Bull scite author profile

Total fish biomass per unit area was positively correlated with total phosphorus, total nitrogen, chlorophyll a, and inversely correlated with Secchi disk transparency in 65 Florida (U.S.A.) lakes selected to range from oligotrophic to hypereutrophic. Species numbers were positively related to lake surface area but not trophic state. There were some shifts in species composition with changes in trophic state, though only a few species showed significant changes in their standing crops. In particular the recreationally important centrarchids did not show important changes with trophic state, and there were no critical points on the trophic spectrum where there were dramatic changes in fish abundance or standing crops. The facts that Florida lakes do not have deep, cold hypolimnia, do not have salmonid species, and have no ice in the winter are among the possible reasons that the more eutrophic Florida lakes do not show the same changes in fish populations often described for northern lakes.Résumé : Il y avait une corrélation positive entre la biomasse totale de poissons par unité de surface et le phosphore total, l'azote total et la chlorophylle a, et une corrélation inverse entre cette biomasse et la transparence mesurée à l'aide du disque de Secchi, dans 65 lacs de Floride (É.-U.) allant d'oligotrophes à hypereutrophes. Les nombres d'espèces étaient liés positivement à la superficie des lacs, mais non à leur état trophique. La composition des espèces variait quelque peu avec l'état trophique, mais seules quelques espèces accusaient des différences importantes dans le nombre d'individus. Plus particulièrement, les centrarchidés importants sur le plan récréatif n'accusaient pas d'importants changements avec l'état trophique, et le spectre trophique ne présentait aucun point critique correspondant à des changements dramatiques de l'abondance ou du nombre d'individus. L'absence d'un hypolimnion froid et profond, l'absence de salmonidés et l'absence de glace en hiver comptent parmi les raisons pouvant expliquer pourquoi les lacs de Floride plus eutrophes n'accusent pas les mêmes variations de population de poissons dont on a souvent fait état dans les lacs nordiques.[Traduit par la Rédaction]

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Foundations of Population-based SHM, Part II: Heterogeneous populations – Graphs, networks, and communities

Gosliga

Gardner

Bull

et al. 2021

Mechanical Systems and Signal Processing

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Foundations of population-based SHM, Part I: Homogeneous populations and forms

Bull

Gardner

Gosliga

et al. 2021

Mechanical Systems and Signal Processing

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Foundations of population-based SHM, Part III: Heterogeneous populations – Mapping and transfer

Gardner

Bull

Gosliga

et al. 2021

Mechanical Systems and Signal Processing

113

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Probabilistic active learning: An online framework for structural health monitoring

Bull

Rogers

Wickramarachchi

et al. 2019

Mechanical Systems and Signal Processing

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Larry Bull

Relations between trophic state indicators and fish in Florida (U.S.A.) lakes

Foundations of Population-based SHM, Part II: Heterogeneous populations – Graphs, networks, and communities

Foundations of population-based SHM, Part I: Homogeneous populations and forms

Foundations of population-based SHM, Part III: Heterogeneous populations – Mapping and transfer

Probabilistic active learning: An online framework for structural health monitoring

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