Niclas U. Lundsgaard scite author profile

Niclas U. Lundsgaard

5Publications

47Citation Statements Received

441Citation Statements Given

How they've been cited

How they cite others

392

434

Affiliations

University of Queensland

Publications

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Effects of ultraviolet-B radiation on physiology, immune function and survival is dependent on temperature: implications for amphibian declines

Lundsgaard

Cramp

Franklin

2020

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Multiple environmental changes are thought to be contributing to the widespread decline of amphibians in montane regions, but interactions between drivers of decline are not well understood. It has been proposed previously that elevated ultraviolet-B radiation (UBVR) and low temperatures may interact in their negative effects on health, immune function and disease susceptibility in exposed amphibians. In the present study, we chronically exposed larvae of the striped-marsh frog (Limnodynastes peronii) to a factorial combination of high and low UVBR and high and low temperature to assess interactive effects on growth, survival and indices of immune function. The high UVBR treatment reduced growth and survival of larvae compared to the low UVBR treatment at both temperatures, but the effects were significantly enhanced at low temperature. High UVBR exposure also induced a chronic inflammatory response as evidenced by an increase in the leucocyte proportion of total cells and altered the ratio of neutrophils to lymphocytes in the blood, highlighting a potential mechanistic basis for increased disease susceptibility in amphibians living at high altitudes. Our findings stress the importance of investigating environmental factors in combination when assessing their effects and highlight the mechanistic basis for how key environmental drivers in montane regions affect amphibian health. Continuation of this work is necessary for the development of targeted conservation strategies that tackle the root causes of montane amphibian declines.

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Ultraviolet-B irradiance and cumulative dose combine to determine performance and survival

Lundsgaard

Cramp

Franklin

2021

Journal of Photochemistry and Photobiology B: Biology

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Early exposure to UV radiation causes telomere shortening and poorer condition later in life

Lundsgaard

Cramp

Franklin

2022

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Determining the contribution of elevated ultraviolet-B radiation (UVBR; 280 – 315 nm) to amphibian population declines is being hindered by a lack of knowledge about how different acute UVBR exposure regimes during early life history stages might affect post-metamorphic stages via long-term carryover effects. We acutely exposed tadpoles of the Australian green tree frog (Litoria caerulea) to a combination of different UVBR irradiances and doses in a multi-factorial laboratory experiment, and then reared them to metamorphosis in the absence of UVBR to assess carryover effects in subsequent juvenile frogs. Dose and irradiance of acute UVBR exposure influenced carryover effects into metamorphosis in somewhat opposing manners. Higher doses of UVBR exposure in larvae yielded improved rates of metamorphosis. However, exposure at a high irradiance resulted in frogs metamorphosing smaller in size and in poorer condition than frogs exposed to low and medium irradiance UVBR as larvae. We also demonstrate some of the first empirical evidence of UVBR-induced telomere shortening in vivo, which is one possible mechanism for life-history trade-offs impacting condition post-metamorphosis. These findings contribute to our understanding of how acute UVBR exposure regimes in early life affect later life-history stages, which has implications for how this stressor may shape population dynamics.

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Consequences of ultraviolet-B exposure regime on physiological carryover effects in amphibians

Lundsgaard¹

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Carryover effects from environmental change in early life: An overlooked driver of the amphibian extinction crisis?

Lundsgaard

Hird

Doody

et al. 2023

Global Change Biology

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Ecological carryover effects, or "the delayed effects of environment" on organism performance and fitness, are common across taxa and present a growing challenge for conservation biology in the face of rapid environmental change (O'Connor & Cooke, 2015; Cooke et al., 2021). As climatic fluctuations increase in magnitude and frequency (Solomon et al., 2007), organisms face an exacerbated risk of exposure to environmental stressors throughout development that may elicit detrimental carryover effects (Alton & Franklin, 2017;O 'Connor & Cooke, 2015;Thomas et al., 2004). Unfortunately, the latent nature of carryover effects and the long temporal scales over

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