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Hydroperiod influences tadpole growth and development in the endangered Littlejohn’s tree frog (Litoria littlejohni)
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  • Nadine Nolan,
  • Matthew Hayward,
  • Alex Callen,
  • Kaya Klop-Toker
Nadine Nolan
The University of Newcastle Australia

Corresponding Author:[email protected]

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Matthew Hayward
The University of Newcastle
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Alex Callen
The University of Newcastle
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Kaya Klop-Toker
The University of Newcastle
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Abstract

Amphibians are among the most threatened vertebrate taxa globally. Their global decline necessitates effective conservation actions to bolster populations across both the larval and adult life stages. Constructing man-made ponds is one such action proven to enhance reproduction in pond-breeding amphibians. However, to achieve successful conservation outcomes, extensive prior knowledge about the ecology and behaviour of the target species is required. In this study, we investigated how different hydroperiod regimes impact the growth and development of Litoria littlejohni tadpoles. Over a 28-week period, tadpoles were exposed to three hydroperiod treatments: Constant High, Declining, and Constant Low water levels. Weekly measurements of snout-to-vent length, body mass, and Gosner stage were taken to assess any treatment-related changes. To determine whether different treatments affected locomotor performance, a jump test was conducted three weeks post metamorphosis. Individuals did not exhibit developmental plasticity in response to declining water, with a mean time to metamorphosis of 93.3 days. Comparatively, when L. littlejohni tadpoles were exposed to low water volumes, they were able to speed up development and reduce time to metamorphosis, with a mean time of 56.5 days. The speeding up of development had an apparent consequence for L. littlejohni. We found support for trade-offs between rapid development and reduced morphometric measurements post-metamorphosis which resulted in reduced locomotive ability. Individuals from Constant Low water treatments exhibited an average total jumping distance of 170.5 cm over 10 consecutive jumps, compared to 235.8 cm in Constant High and 209.5 cm in Declining treatments. Rapid larval development aids tadpoles in escaping suboptimal aquatic conditions, but its effects on locomotion may impact foraging efficiency and predator escape ability. Understanding developmental plasticity in threatened amphibians, especially in response to hydroperiod variations, is crucial for conservation programs, particularly under future climate change scenarios predicting increased drought and reduced hydroperiods in aquatic environments.
16 Feb 2024Submitted to Ecology and Evolution
26 Feb 2024Submission Checks Completed
26 Feb 2024Assigned to Editor
23 Aug 2024Review(s) Completed, Editorial Evaluation Pending
13 Sep 2024Editorial Decision: Revise Minor
24 Sep 20241st Revision Received
25 Sep 2024Submission Checks Completed
25 Sep 2024Assigned to Editor
25 Sep 2024Review(s) Completed, Editorial Evaluation Pending
07 Oct 2024Reviewer(s) Assigned
15 Nov 2024Editorial Decision: Revise Minor