Diet composition analysis provides new management insights for a highly specialized endangered small mammal

Castle, Stephanie; Allan, Nora; Clifford, Deana L.; Aylward, Cody M.; Ramsey, Jon J.; Fascetti, Andrea J.; Pesapane, Risa; Roy, Austin; Statham, Mark J.; Sacks, Benjamin N.; Foley, Janet E.

doi:10.1371/journal.pone.0240136

Cited by 13 publications

(11 citation statements)

References 48 publications

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“…Alternatively, metabarcoding may be a more sensitive and powerful method to detect a larger variety of diet items within one faecal sample. This is supported by studies that have directly compared non-molecular methods and metabarcoding for reconstructing diet from the same individuals (Castle et al, 2020; Nichols et al, 2016).…”

Section: Discussionmentioning

confidence: 88%

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

Chua

Lammers

Ménoni

et al. 2021

Preprint

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Conservation strategies centred around species habitat protection rely on species dietary information. One species at the focal point of conservation efforts is the herbivorous grouse, the western capercaillie (Tetrao urogallus). Traditional microhistological analysis of crop contents or faeces and/or direct observations are time-consuming and at low taxonomic resolution. Thus, limited knowledge on diet is hampering conservation efforts. Here we use non-invasive environmental DNA (eDNA) metabarcoding on DNA extracted from faeces to present the first large-scale molecular dietary analysis of capercaillies. Faecal samples were collected from seven populations located in Norway (Finnmark, Troms, Trøndelag, Innlandet) and France (Vosges, Jura, Pyrenees) (n=172). We detected 122 plant taxa belonging to 46 plant families of which 37.7% of the detected taxa could be identified at species level. The average dietary richness of each sample was 7 ± 5 SD taxa. The most frequently occurring plant groups with the highest relative read abundance (RRA) were trees and dwarf shrubs, in particular, Pinus and Vaccinium myrtillus, respectively. There was a difference in dietary composition (RRA) between samples collected from the different locations (adonis F5,86= 11.01, p <0.05) and seasons (adonis F2,03= 0.64, p <0.05). Dietary composition also differed between sexes at each location (adonis F1,47 = 2.77, p <0.05), although not significant for all data combined. In total, 35 taxa (36.84% of taxa recorded) were new capercaillie food items compared to existing knowledge. The non-invasive molecular dietary analysis applied in this study provides new ecological understanding of capercaillies diet which can have real conservation implications. The broad variety of diet items indicates that vegetation does not limit food intake. This plasticity in diet suggests that other factors including disturbed mating grounds and not diet could be the main threat to their survival.

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Section: Discussionmentioning

confidence: 88%

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

Chua

Lammers

Ménoni

et al. 2021

Preprint

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“…Different macronutrients yield different volumes of metabolic water via catabolism (carbohydrates = 0.6g metabolic water per gram, protein = 0.4g per gram, and fats = 1.07g per gram, Davidson et al, 1986). Many plants native to the Sonoran Desert have a fat content comparable to that of the LFD used in this study (5.49 - 9.88% for leaf tissues and branches, McArthur, 1994; 0.90-3.60% for roots and seeds, Castle et al, 2020). Moisture content can influence diet selection in wild desert mammals, which depend on preformed water in their diet (Frank, 1988; Orr et al, 2015).…”

Section: Discussionmentioning

confidence: 70%

High total water loss driven by low-fat diet in desert-adapted mice

Blumstein

Colella

Linder

et al. 2022

Preprint

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Availability of essential food resources is one of the most important drivers of survival and to persist in environments where critical resource abundance is changing, animals must either relocate or adapt in place. Testing an animal’s ability to respond to alternative conditions can reveal differences in physiological responses. We used flow-through respirometry to characterize metabolic phenotypes of the desert-adapted cactus mouse (Peromyscus eremicus) under diurnally variable environmental conditions that mimic the Sonoran Desert and treated mice with two different diets; a standard diet and a low-fat diet. We found significant diet-specific differences in the rate of water loss and serum electrolyte values. Mice fed the low-fat diet lost more water relative to those eating the standard diet and patterns of de novo lipogenesis are not limited by dietary composition. Our results are consistent with the hypothesis that diet contributes to water homeostasis. Compared to other desert animals, rodents have limited capacity to dissipate heat using evaporative cooling, limiting thermoregulatory performance at higher temperatures. We predict that a mismatch in physiological requirements and environmental conditions could significantly impact small mammal survival in desert environments if optimal foods become less abundant, as may be the case given climate change.

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“…Alternatively, metabarcoding is a more sensitive and powerful method to detect a larger variety of diet items within one fecal sample. This is supported by studies that have directly compared non‐molecular methods and metabarcoding for reconstructing diet from the same individuals (Castle et al, 2020; Nichols et al, 2016). Another consideration could be that ingested plant DNA from prior meals are retained due to differential retention time, leading to the rarity of monodiets being observed using metabarcoding.…”

Section: Discussionmentioning

confidence: 87%

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

et al. 2021

View full text Add to dashboard Cite

Conservation strategies centered around species habitat protection rely on species’ dietary information. One species at the focal point of conservation efforts is the herbivorous grouse, the western capercaillie (Tetrao urogallus), which is an indicator species for forest biodiversity conservation. Non‐molecular means used to study their diet are time‐consuming and at low taxonomic resolution. This delays the implementation of conservation strategies including resource protection due to uncertainty about its diet. Thus, limited knowledge on diet is hampering conservation efforts. Here, we use non‐invasive environmental DNA (eDNA) metabarcoding on DNA extracted from faces to present the first large‐scale molecular dietary analysis of capercaillies. Facal samples were collected from seven populations located in Norway (Finnmark, Troms, Trøndelag, Innlandet) and France (Vosges, Jura, Pyrenees) (n = 172). We detected 122 plant taxa belonging to 46 plant families of which 37.7% of the detected taxa could be identified at species level. The average dietary richness of each sample was 7 ± 5 SD taxa. The most frequently occurring plant groups with the highest relative read abundance (RRA) were trees and dwarf shrubs, in particular, Pinus and Vaccinium myrtillus, respectively. There was a difference in dietary composition (RRA) between samples collected from the different locations (adonis pseudo F5,86 = 11.01, r2 = 0.17, p = 0.001) and seasons (adonis pseudo F2,03 = 0.64, r2 = 0.01, p = 0.036). Dietary composition also differed between sexes at each location (adonis pseudo F1,47 = 2.77, r2 = 0.04, p = 0.024), although not significant for all data combined. In total, 35 taxa (36.8% of taxa recorded) were new capercaillie food items compared with existing knowledge from non‐molecular means. The non‐invasive molecular dietary analysis applied in this study provides new ecological information of capercaillies’ diet, improving our understanding of adequate habitat required for their conservation.

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Diet composition analysis provides new management insights for a highly specialized endangered small mammal

Cited by 13 publications

References 48 publications

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

High total water loss driven by low-fat diet in desert-adapted mice

Molecular dietary analyses of western capercaillies (Tetrao urogallus) reveal a diverse diet

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