Acute and chronic effects of acidic pH on four subtropical frog species

Farquharson, Charon; Wepener, Victor; Smit, Nico J.

doi:10.4314/wsa.v42i1.07

Cited by 8 publications

(12 citation statements)

References 35 publications

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“…In addition to high conductivity, acidic water has been found to negatively affect aquatic organisms through reduced larval growth and delayed metamorphosis (Burmeister, 2015;Farquharson et al, 2016), physiological changes (Neff et al, 2008), and increased mortality (Vatnick et al, 1999;Skei and Dolmen, 2006). Acidic deposition in rivers has long been of concern, especially in the Appalachian Mountains where acidification has caused documented salamander declines (Kucken et al, 1994), and many remaining Hellbender populations reside.…”

Section: Discussionmentioning

confidence: 99%

Neutrophil: Lymphocyte Ratios as a Measure of Chronic Stress in Populations of the Hellbender (Cryptobranchus alleganiensis) across a Habitat Quality Gradient

Litmer

Freake

Murray

2020

Copeia

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Amphibians are currently facing widespread population declines, primarily due to the introduction of anthropogenic stressors, which have the potential to alter ecosystem dynamics and elicit long-term physiological responses resulting in overall population declines. Population assessments typically rely upon genomics, demography, and geographic isolation; however, when physiological parameters are included, mechanistic explanations for population declines can be determined. Rapid population assessments that can be related to specific microhabitat characteristics for management purposes can be achieved by implementing a chronic stress proxy, such as neutrophil: lymphocyte (N:L) ratios. As a long-lived habitat specialist, facing dramatic population declines with state and federally protected populations, the Hellbender (Cryptobranchus alleganiensis) is a good candidate species for applying N:L ratios to assess population vulnerability and habitat quality. This study used N:L ratios as a proxy of chronic stress among Hellbender populations to determine environmental variables potentially correlated with chronic stress. Additionally, comparisons of N:L ratios were made among Hellbender populations to examine applicability of this method for assessing amongpopulation differences. Of the microhabitat variables assessed, high conductivity, low pH, and low dissolved oxygen correlated with elevated N:L ratios. In addition, N:L ratios differed significantly among Hellbender populations, which suggests the utility of N:L ratios as an indicator of population-level differences. Specifically, where traditional methods lack the ability to detect concerns, physiological assessment suggested certain populations may be of concern in regard to experiencing chronic stress. Including physiological parameters in viability and vulnerability assessments more frequently, such as the one described here, can provide evidence of population concerns earlier than traditional methods, and allow for better management strategy by elucidating specific environmental variables contributing to stress.

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Section: Discussionmentioning

confidence: 99%

Neutrophil: Lymphocyte Ratios as a Measure of Chronic Stress in Populations of the Hellbender (Cryptobranchus alleganiensis) across a Habitat Quality Gradient

Litmer

Freake

Murray

2020

Copeia

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“…Physicochemical components of water may affect the physiology and development of tadpoles, which reflects in compensation mechanisms. Low pH values may affect tadpole growth (Pierce, 1985; Farquharson et al, 2016; Meyer, Franklin, & Cramp, 2020). The traits of nostrils and spiracle are related to the tadpoles’ respiratory and regulatory physiology, water intake and flow into the body (Gollman & Gollman, 1999; Altig, 2006), which has a strong connection the physicochemical properties of water.…”

Section: Discussionmentioning

confidence: 99%

“…Such environmental characteristics can directly influence the composition of aquatic communities in response to predation and/or competition (Wellborn, Skelly, & Werner, 1996; Werner, Yurewicz, Skelly, & Relyea, 2007; Melo, Garey, & Rossa-Feres, 2018), as well as nutrient supply (Williams, Rittenhouse, & Semlitsch, 2008), thus enabling the distribution of trophic guilds in the water column (Queiroz et al, 2015). They can also influence the metabolism (Afonso & Eterovick, 2007), morphology and physiology of tadpoles (Sipaúba-Tavares, Guariglia, & Braga, 2007; Thomaz & Cunha, 2010; Mansano, Stéfani, Pereira, & Macente, 2012; Mansano, Stéfani, Pereira, Nascimento, & Macente, 2014; Farquharson, Wepener, & Smit, 2016), shaping their performance. This prediction is based on the influence of the landscape on the composition of the tadpole community (Santos et al, in press) and the local characteristics of the water such as depth, presence of vegetation (Queiroz et al, 2015), substrate (Schiesari, 2006; Williams et al, 2008; Thomaz & Cunha, 2010), temperature (Lima, Casali, & Agostinho, 2003; Maciel & Juncá, 2009), pH, nitrogen in the form of ammonia, nitrite and nitrate, phosphorus and bicarbonate (Mansano, Vanzela, Américo-Pinheiro, Macente, Khan, et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Trait-environment relationship in tadpoles of the southern Atlantic Forest

Santos

Brum

Dalmolin

et al. 2021

Preprint

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Environmental predictors select individuals by their functional traits, shaping the anuran assembly patterns. Individuals respond to environmental filters that can be on a local or regional scale.In this study, we investigated the association between local (water and microhabitat) and landscape variables and the morphological traits of tadpoles of ponds and streams. The study was conducted in the southern region of the Brazilian Atlantic Forest. We sampled 28 waterbodies and recorded 22 anurans species. We performed RLQ and fourth-corner analyses to determine the patterns of trait-environment relationships and determine which environmental and landscape variables influence the morphological characteristics of tadpoles from streams and ponds. We found that the morphological traits of tadpoles are influenced mainly by physicochemical and microhabitat attributes, being distinct between ponds and streams. In ponds, water depth, pH, and the presence of vegetation influence the morphological traits of the tadpoles, while in the streams water pH, temperature, conductivity, total alkalinity, Alk HCO3, and microhabitat variables played a major role in defining the traits. Our results indicate that local components of habitat (water characteristics and microhabitat) influence functional traits of tadpoles in both ponds and streams, especially those supposedly related to locomotory, foraging and prey-detection abilities.

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“…Altered water chemistry, caused by mining, industrial, and agriculture practices, can negatively impact the aquatic stages of amphibians. Changes in pH levels and the release of coal combustion and heavy metals, such as iron, manganese, and copper, into aquatic environments have been shown to cause acute negative impacts on amphibian larvae and embryos [65,66,121,122]. Salice et al [66] examined the population-level impacts of aquatic coal combustion residue (CCR) on the different life stages of the eastern narrow-mouth toad, (Gastrophryne carolinensis).…”

Section: Pollution and Chemical Contaminationmentioning

confidence: 99%

Complex Organisms Must Deal with Complex Threats: How Does Amphibian Conservation Deal with Biphasic Life Cycles?

Nolan,

Hayward,

Klop-Toker

et al. 2023

Animals

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The unprecedented rate of global amphibian decline is attributed to The Anthropocene, with human actions triggering the Sixth Mass Extinction Event. Amphibians have suffered some of the most extreme declines, and their lack of response to conservation actions may reflect challenges faced by taxa that exhibit biphasic life histories. There is an urgent need to ensure that conservation measures are cost-effective and yield positive outcomes. Many conservation actions have failed to meet their intended goals of bolstering populations to ensure the persistence of species into the future. We suggest that past conservation efforts have not considered how different threats influence multiple life stages of amphibians, potentially leading to suboptimal outcomes for their conservation. Our review highlights the multitude of threats amphibians face at each life stage and the conservation actions used to mitigate these threats. We also draw attention to the paucity of studies that have employed multiple actions across more than one life stage. Conservation programs for biphasic amphibians, and the research that guides them, lack a multi-pronged approach to deal with multiple threats across the lifecycle. Conservation management programs must recognise the changing threat landscape for biphasic amphibians to reduce their notoriety as the most threatened vertebrate taxa globally.

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Acute and chronic effects of acidic pH on four subtropical frog species

Cited by 8 publications

References 35 publications

Neutrophil: Lymphocyte Ratios as a Measure of Chronic Stress in Populations of the Hellbender (Cryptobranchus alleganiensis) across a Habitat Quality Gradient

Neutrophil: Lymphocyte Ratios as a Measure of Chronic Stress in Populations of the Hellbender (Cryptobranchus alleganiensis) across a Habitat Quality Gradient

Trait-environment relationship in tadpoles of the southern Atlantic Forest

Complex Organisms Must Deal with Complex Threats: How Does Amphibian Conservation Deal with Biphasic Life Cycles?

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