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2 results

  • 10 - Time Scales in Semienclosed Basins

  • Arnoldo Valle-Levinson, University of Florida
  • Book:
    Introduction to Estuarine Hydrodynamics
    Published online:
    24 February 2022
    Print publication:
    03 March 2022, pp 170-180

  • Summary

    Studies of any semienclosed basin frequently ask the question, How long does it take for water renewal in this basin? The question is rather simple, but the answer is far from it. The response is difficult because one single value (e.g., NT number of hours or days or years) falls short in representing the possible variability of the agents that cause such water renewal. This chapter presents different ways to represent the renewal and the potential variability in those representations. The chapter is anchored in previous syntheses that attempt to address persistent inconsistencies in the use of the various terms that refer to such water renewal. The chapter proposes distinctions among flushing time, residence time, age, transit time, and exposure time.

  • Relative potency in nonsimilar dose–response curves

  • Christian Ritz, Nina Cedergreen, Jens Erik Jensen, Jens Carl Streibig
  • Journal:
    Weed Science / Volume 54 / Issue 3 / June 2006
    Published online by Cambridge University Press:
    20 January 2017, pp. 407-412

  • This article discusses the concept of relative potency of herbicides in bioassays where individual dose–response curves can be similar or nonsimilar, often denoted parallel and nonparallel curves, and have different upper and lower limits. The relative potency is constant for similar dose–response curves and measures the relative horizontal displacement of curves of a similar shape along the dose axis on a logarithmic scale. The concept of similar dose–response curves has been used extensively to assess results from herbicide experiments, for example, with the purpose of adjusting herbicide doses to environmental conditions, formulations, and adjuvants. However, deeming dose–response curves similar when they are not may greatly affect the calculation of the relative potency at response levels such as effective dosage (ED)90, which is relevant for effective weed control, or ED 10, which is used in crop tolerance studies. We present a method for calculating relative potencies between nonsimilar dose–response curves at any response level. It also is demonstrated that if the upper, lower, or both limits among response curves are substantially different, then the ED 50 or any other ED level cannot be used indiscriminately to compute the relative potency. Rather, the relative potency should be viewed as a function of the response level.