Abstract
th Street, Kearney, Nebraska, 68849, USA Abstract. Field and laboratory experiments were conducted to assess the time ground beetles (Coleoptera: Carabidae) survive during actual and simulated flood conditions. The effects of three variants of potential flood conditions were tested: (1) beetles trapped on the surface of flood water; (2) beetles trapped in air pockets; (3) submersion of beetles in flood water without access to air. Ground beetles trapped on the surface of water survived more than two weeks (Carabus granulatus - up to 16 days; Oxypselaphus obscurus - up to 22 days). Carabus granulatus in simulated hibernation chambers that had air-pockets also survived for 15 days. The time for which ground beetles submerged without access to air survived differed significantly among species and was affected by season. They survived longest in mid-spring and late-autumn when water temperature is low. In mid-spring, survival times for C. granulatus and Platynus assimilis were 12 days and 9 days, respectively. During late summer and early autumn all species survived for a shorter period of time. In August, at least half of the individuals tested were dead after three days of immersion (water temperature 16-18°C). Removal of both of the elytra of adult of C. granulatus resulted in them surviving immersion for a shorter period, which indicates that air stored in the sub-elytral cavity is used to prolong the period they can survive immersion. The results of these experiments broaden the knowledge of how adult beetles survive seasonal flooding and are able to persist in floodplain habitats.
Highlights
Floodplains are exposed to periodic floods and organisms inhabiting floodplains are adapted to survive these conditions
Adults of C. granulatus overwinter in chambers formed in soil or rotten wood and when submerged the air in these chambers could slowly become hypoxic or potentially serve as a physical gill, exchanging oxygen with the surrounding water
During simulated flooding adult ground beetles trapped on the surface of the water were able to survive for nearly two weeks
Summary
Floodplains are exposed to periodic floods and organisms inhabiting floodplains are adapted to survive these conditions. Insects survive immersion by decreasing their metabolic rate, respiring with a physical gill and/or switching to anaerobic metabolism (Hochachka et al, 1993; Wegener, 1993; Hoback & Stanley, 2001; Zerm et al, 2004). Not all insects, even within the same genus, are adapted to survive immersion to the same extent (Hoback et al, 2002; Brust & Hoback, 2009). Previous studies have exposed adult and larval insects to “worstcase scenarios” of being completely immersed in severely hypoxic water to simulate conditions associated with flooded soils (Baumgartl et al, 1994). A number of insect taxa that stay in flooded habitats are not exposed directly to flood water and survive by trapping air in burrows as observed in mangrove ants
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