Alejandro Molina-Moctezuma scite author profile

Movement, delays, and survival of hatchery Atlantic Salmon Salmo salar smolts were evaluated through the Piscataquis River, a tributary of the Penobscot River in Maine, USA. We explored the effects of the river's four dams (Guilford, Dover, Browns Mill, and Howland dams) from 2005 to 2019. During this period, the downstream-most dam (Howland Dam) transitioned from full hydropower generation to seasonal turbine shutdowns and later was decommissioned with the construction of a nature-like fish bypass in 2016. We estimated survival through open-river reaches and at each dam using acoustic telemetry (n = 1,611). Dams decreased survival, with per-river-kilometer (rkm) apparent survival averages of 0.972, 0.951, and 0.990 for Guilford, Dover, and Browns Mill dams compared to a per-rkm survival of 0.999 for open-river reaches. Turbine shutdowns increased survival at Howland Dam (to around 0.95), which was further increased by the nature-like fish bypass (0.99). We used radiotelemetry in 2019 (n = 75) and demonstrated that approximately one-third of the fish used the bypass, while the remaining fish used alternative routes. Smolts successfully passing the three upstream dams had lower apparent survival through Howland Dam than smolts that were released upstream of Howland Dam. Although smolts passing Browns Mill Dam had high survival, the dam caused extended delays, with median delay times surpassing 48 h in most years. Most of the delays caused by Browns Mill Dam occurred after fish had passed the dam and may indicate a sublethal effect of passage. Overall, while survival through Howland Dam has improved, passage and delays at the three upstream dams in aggregate represent a critical impediment to the effective use of the high-quality spawning habitat found upstream.

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Superfetation increases total fecundity in a viviparous fish regardless of the ecological context

Zúñiga‐Vega

Olivera-Tlahuel

Molina-Moctezuma

2017

Acta Oecologica

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Resource availability and its effects on mother to embryo nutrient transfer in two viviparous fish species

2020

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Different hypotheses have been proposed to explain the adaptive value of matrotrophy, which is the postfertilization maternal provisioning to developing embryos. The Trexler–DeAngelis model proposes that matrotrophy provides fitness advantages when food abundance is high and availability is constant. If food availability is low or unpredictable, prefertilization maternal provisioning (lecithotrophy) should be favored over matrotrophy. In this study, we tested this model in two fish species from the family Poeciliidae, Poeciliopsis gracilis and P. infans, using field and laboratory data. In the field study, we explored the effects of population, season, and food abundance on the degree of matrotrophy. In P. infans, we found evidence that supports this model: In the population where food abundance decreased during the dry season, females reduced the amount of postfertilization provisioning and thus exhibited a more lecithotrophic strategy. In P. gracilis, we observed patterns that were partially consistent with this model: Food abundance decreased during the wet season in three populations of this species, but only in one of these populations, females exhibited less postfertilization nutrient transfer during this season. In the laboratory study, we tested the effects of constant, fluctuating, and low food availability on the relative amounts of pre‐ and postfertilization provisioning of P. infans. Our laboratory results also support the Trexler–DeAngelis model because both low and fluctuating food regimes promoted a more lecithotrophic strategy. Together, our findings indicate that the benefits of matrotrophy are more likely to occur when females have constant access to food sources.

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Demographic Importance of the Life-Cycle Components inSceloporus grammicus

Pérez-Mendoza¹,

Zúñiga‐Vega²,

Zurita-Gutiérrez³

et al. 2013

Herpetologica

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Population Abundance and Sex Ratio of the Viviparous Freshwater FishPoeciliopsis baenschi(Poeciliidae) Throughout its Range in Western Mexico

Zúñiga‐Vega

Hernández‐Rosas

Molina-Moctezuma

et al. 2012

Western North American Naturalist

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