Affiliation:
1. Department of Biology Trent University Peterborough Ontario Canada
Abstract
AbstractCaloric restriction has been found to extend the lifespan of many organisms including mammals and other vertebrates. With lifespans exceeding months to years, age‐related experiments involving fish and mammals can be overtly costly, both in terms of time and funding. The freshwater crustacean, Daphnia, has a relatively short lifespan (∼50 to 100 days), which makes it a cost‐effective alternative animal model for longevity and aging studies. Besides age‐specific mortality, there are a suite of physiological responses connected to “healthspan” that can be tracked as these animals age including growth, reproduction, and metabolic rates. These responses can be complemented by assessment of molecular and cellular processes connected to aging and health. Lifespan and metabolism of this model organism is responsive to long studied modulators of aging, such as rearing temperature and nutritional manipulation, but also pharmacological agents that target aging, e.g., rapamycin, which adds to its usefulness as a model organism. Here we describe how to culture Daphnia for aging experiments including maintaining laboratory populations of Daphnia mothers, growing algal food, and manipulating nutrition of these animals. In addition, we provide methods for tracking common physiological and longevity responses of Daphnia. This protocol provides researchers planning to use this model organism with methods to establish and maintain Daphnia populations and to standardize their experimental approaches. © 2024 The Authors. Current Protocols published by Wiley Periodicals LLC.Basic Protocol 1: Culturing algae for Daphnia foodBasic Protocol 2: General methods for culturing DaphniaBasic Protocol 3: Standardizing and controlling nutrition for experimental DaphniaBasic Protocol 4: Monitoring Daphnia lifespanBasic Protocol 5: Evaluating Daphnia health: Heart rate and respiration, body mass and growth rates, and reproduction