Partial migration in diadromous fishes drives the allocation of subsidies across the freshwater-marine ecotone

Abstract Migratory animals can act as cross-boundary subsidies sustaining ecosystem functioning, such as diadromous fishes that migrate between fresh water and seawater and carry nutrients and energy across the freshwater-marine ecotone. Frequency and timing of migration are however highly variable within and among populations. We hypothesized that in catadromous fishes (i.e., diadromous fishes that grow in freshwater and spawn in the sea, such as eels), the import of subsidies by migratory juveniles could outweigh the export of subsidies by adults due to skipped spawning migration. We used the diamond mullet Planiliza ordensis, as a model species, and determined life-history traits using a combination of length-to-age data, acoustic telemetry and otolith (fish ear stone) microchemistry. We used a mass balance approach to model individual mass acquisition and allocation, and extended our model to other life-history strategies. Our results showed high intra-population variation of migratory behaviour in P. ordensis, with few individuals migrating every year to spawn. We estimated that an individual P. ordensis acted as a net 42.6g biomass subsidy in fresh water, representing a retention of more than 50% of the juvenile mass at freshwater entry. Our model predicts that skipped spawning is likely to alter the allocation of subsidies in diadromous species, highlighting the important effects of individual variation in migratory behaviour on fluxes of energy and nutrient at ecosystem scales. We encourage future studies to consider how variation in migratory behaviour is likely to affect the direction and magnitude of biomass fluxes across ecotone boundaries.

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Residence times of juvenile salmon and steelhead in off-channel tidal freshwater habitats, Columbia River, USA

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2014-0085 ◽

2015 ◽

Vol 72 (5) ◽

pp. 684-696 ◽

Cited By ~ 9

Author(s):

Gary E. Johnson ◽

Gene R. Ploskey ◽

Nichole K. Sather ◽

David J. Teel

Keyword(s):

Life History ◽

Fresh Water ◽

Chinook Salmon ◽

Coho Salmon ◽

Columbia River ◽

Tidal Freshwater ◽

Life History Strategies ◽

Residence Times ◽

Juvenile Salmonids ◽

Freshwater Habitats

We documented two life history strategies for juvenile salmonids as expressed in off-channel tidal freshwater habitats of the Columbia River: (i) active migrations by upper river Chinook salmon (Oncorhynchus tshawytscha) and steelhead (Oncorhynchus mykiss) during the primary spring and summer migration periods and (ii) overwinter rearing in tidal freshwater habitats by coho salmon (Oncorhynchus kisutch) and naturally produced Chinook salmon mostly from lower river sources. During spring–summer 2007–2008, acoustic-tagged fish originating above Bonneville Dam (rkm 234) had short residence times in off-channel areas (rkm 192–203): median 2.5 and 2.6 h for yearling (mean lengths 134 and 158 mm) and 3.0 and 3.4 h for subyearling (104 and 116 mm) Chinook salmon and 2.5 h for yearling steelhead (215 mm). The percentage of fish in off-channel areas out of the total in the main- and off-channels areas was highest for yearling Chinook salmon (8.1% and 9.3% for 2007 and 2008, respectively) and lowest for steelhead (4.0% for 2008) and subyearling Chinook salmon (3.6% and 6.1% for 2007 and 2008, respectively). In late January and early February 2010, 2011, and 2012, we captured and tagged yearling Chinook and coho salmon occupying off-channel tidal freshwater habitats. Median residence times in off-channel areas were 11.6–25.5 days for juvenile Chinook (106, 115, and 118 mm, respectively by year) and 11.2 days for coho salmon (116 mm). This study is the first to estimate residence times for juvenile salmonids specifically in off-channel areas of tidal fresh water and, most importantly, residence times for Chinook salmon expressing a life history of overwintering in tidal fresh water. The findings support restoration of shallow off-channel habitats in tidal freshwater portions of the Columbia River.

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Physiological Characterization of Hatchery-Origin Juvenile Steelhead Oncorhynchus mykiss Adopting Divergent Life-History Strategies

Journal of Fish and Wildlife Management ◽

10.3996/092010-jfwm-032 ◽

2011 ◽

Vol 2 (1) ◽

pp. 61-71 ◽

Cited By ~ 6

Author(s):

Kyle C. Hanson ◽

William L. Gale ◽

William G. Simpson ◽

Benjamen M. Kennedy ◽

Kenneth G. Ostrand

Keyword(s):

Life History ◽

Fresh Water ◽

Gonadosomatic Index ◽

Life History Strategy ◽

Life History Strategies ◽

Migratory Fish ◽

Physiological Characterization ◽

Subunit Expression ◽

Mature Fish

Abstract Smoltification by juvenile Pacific salmonids has been described as a developmental conflict whereby individuals face several life-history decisions. Smoltification occurs as a result of interactions between organismal condition and environmental cues, although some fish may forgo ocean migration and remain in freshwater streams for some time (residualize). We compared the physiological profiles of steelhead that were actively migrating to the ocean (migratory fish) and those that remained in fresh water (residuals) for at least a period of between 2 wk and 3 mo after release from a hatchery facility. In addition, we investigated the physiological characterization of residuals that further differentiated into precocial freshwater residents or parr that will either precocially mature in fresh water or migrate to the ocean in the future. Residuals had higher condition factors and gonadosomatic index than migratory fish and were characterized as less prepared for saltwater due to low levels of gill Na+,K+-ATPase activity and Na+,K+-ATPase α1b-subunit expression. Residuals tended to be males with the highest condition factors. Sex-specific differences are probably reflective of male fish adopting an alternative life-history strategy foregoing outmigration as a result of condition at the time of release. Collection of residuals throughout the fall suggested that residual hatchery fish further diversify into precocially mature fish that will presumably attempt to spawn without ever migrating to the ocean or into parr that will precocially mature or migrate in a future year.

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Phenotypic integration and life history strategies among populations of Pinus halepensis: an insight through structural equation modelling

Annals of Botany ◽

10.1093/aob/mcz088 ◽

2019 ◽

Vol 124 (7) ◽

pp. 1161-1171 ◽

Cited By ~ 3

Author(s):

Filippo Santini ◽

José M Climent ◽

Jordi Voltas

Keyword(s):

Life History ◽

Water Uptake ◽

Latent Variables ◽

Structural Equation ◽

Photosynthetic Capacity ◽

Pinus Halepensis ◽

Population Variation ◽

Life History Strategies ◽

Phenotypic Integration ◽

Phenotypic Traits

Abstract Background and Aims Understanding inter-population variation in the allocation of resources to specific anatomical compartments and physiological processes is crucial to disentangle adaptive patterns in forest species. This work aims to evaluate phenotypic integration and trade-offs among functional traits as determinants of life history strategies in populations of a circum-Mediterranean pine that dwells in environments where water and other resources are in limited supply. Methods Adult individuals of 51 populations of Pinus halepensis grown in a common garden were characterized for 11 phenotypic traits, including direct and indirect measures of water uptake at different depths, leaf area, stomatal conductance, chlorophyll content, non-structural carbohydrates, stem diameter and tree height, age at first reproduction and cone production. The population differentiation in these traits was tested through analysis of variance (ANOVA). The resulting populations’ means were carried forward to a structural equation model evaluating phenotypic integration between six latent variables (summer water uptake depth, summer transpiration, spring photosynthetic capacity, growth, reserve accumulation and reproduction). Key Results Water uptake depth and transpiration covaried negatively among populations, as the likely result of a common selective pressure for drought resistance, while spring photosynthetic capacity was lower in populations originating from dry areas. Transpiration positively influenced growth, while growth was negatively related to reproduction and reserves among populations. Water uptake depth negatively influenced reproduction. Conclusions The observed patterns indicate a differentiation in life cycle features between fast-growing and slow-growing populations, with the latter investing significantly more in reproduction and reserves. We speculate that such contrasting strategies result from different arrays of life history traits underlying the very different ecological conditions that the Aleppo pine must face across its distribution range. These comprise, principally, drought as the main stressor and fire as the main ecological disturbance of the Mediterranean basin.

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Life history variation across four decades in a diverse population complex of Atlantic salmon in a large subarctic river

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2017-0343 ◽

2019 ◽

Vol 76 (1) ◽

pp. 42-55 ◽

Cited By ~ 23

Author(s):

Jaakko Erkinaro ◽

Yann Czorlich ◽

Panu Orell ◽

Jorma Kuusela ◽

Morten Falkegård ◽

...

Keyword(s):

Life History ◽

Fresh Water ◽

Life Histories ◽

Age Distribution ◽

Large River ◽

Life History Strategies ◽

Sampling Effort ◽

Life History Variation ◽

Water Age ◽

Long Term Trends

We used over 154 000 scale samples collected from salmon fisheries in the large River Teno system over a 40-year period to quantify life history diversity and long-term trends. We identified 120 different life history strategies, including combinations of smolt (2–8) and sea ages (1–5) and previous spawning events. Most strategies were rare; 60% of individuals matured after 1 year at sea following 3–5 years in fresh water. Age at maturity changed with an increase in two-sea-winter salmon and previous spawners and a decline in three-sea-winter fish. Smolt age distribution showed a decreasing proportion of age-3 smolts, while that of age-5 smolts increased. Fishing gear and fishing season times selected for fish differing in life history strategies. Temporal variation in life histories reflected changes in both fisheries and the changing environment. There was an inverse relationship between years spent in fresh water and sea age. Biocomplexity was manifested by the multiple year classes (6–11) present in annual runs, which increased with years, reflecting an increase both in previous spawners and sampling effort. The high number of cohorts spawning simultaneously each year indicates strong generational overlap, which has been suggested to maintain genetic diversity and thereby resilience via the portfolio effect.

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Population position along the fast-slow life-history continuum predicts intraspecific variation in actuarial senescence

10.1101/621425 ◽

2019 ◽

Cited By ~ 1

Author(s):

Hugo Cayuela ◽

Jean-François Lemaître ◽

Eric Bonnaire ◽

Julian Pichenot ◽

Benedikt R. Schmidt

Keyword(s):

Life History ◽

Intraspecific Variation ◽

Population Variation ◽

Life History Strategies ◽

Wild Populations ◽

Captive Populations ◽

Bombina Variegata ◽

In The Wild ◽

Capture Recapture

AbstractPatterns of actuarial senescence can be highly variable among species. Previous comparative analyses revealed that both age at the onset of senescence and rates of senescence are linked to the species’ position along the fast-slow life-history continuum. As there are few long-term datasets of wild populations with known-age individuals, intraspecific (i.e. between-population) variation in senescence is understudied and limited to comparisons of wild and captive populations of the same species, mostly birds and mammals. In this paper, we examined how population position along the fast-slow life history continuum affects senescence patterns in an amphibian, Bombina variegata. We used capture-recapture data collected in four populations with contrasted life history strategies. Senescence trajectories were drawn using Bayesian capture-recapture models. We show that in “slow” populations the onset of senescence was earlier and individuals aged at a faster rate than individuals in “fast” populations. Our study provides one of the few empirical examples of between-population variation in senescence patterns in the wild and confirms that the fast-slow life history gradient is associated with both macroevolutionary and microevolutionary patterns of senescence.

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Exposure to glucocorticoids alters life history strategies in a facultatively paedomorphic salamander

Journal of Experimental Zoology Part A Ecological and Integrative Physiology ◽

10.1002/jez.2445 ◽

2021 ◽

Author(s):

Jason R. Bohenek ◽

Christopher J. Leary ◽

William J. Resetarits

Keyword(s):

Life History ◽

Life History Strategies

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Natural variation in plant telomere length is associated with flowering time

The Plant Cell ◽

10.1093/plcell/koab022 ◽

2021 ◽

Author(s):

Jae Young Choi ◽

Liliia R Abdulkina ◽

Jun Yin ◽

Inna B Chastukhina ◽

John T Lovell ◽

...

Keyword(s):

Life History ◽

Telomere Length ◽

Flowering Time ◽

Dna Sequences ◽

Genome Wide Association Study ◽

Genomic Analysis ◽

Life History Strategies ◽

Length Variation ◽

Chromosomal Structure ◽

Chromosome Integrity

Abstract Telomeres are highly repetitive DNA sequences found at the ends of chromosomes that protect the chromosomes from deterioration during cell division. Here, using whole genome re-sequencing and terminal restriction fragment assays, we found substantial natural intraspecific variation in telomere length in Arabidopsis thaliana, rice (Oryza sativa), and maize (Zea mays). Genome-wide association study (GWAS) mapping in A. thaliana identified 13 regions with GWAS-significant associations underlying telomere length variation, including a region that harbors the telomerase reverse transcriptase (TERT) gene. Population genomic analysis provided evidence for a selective sweep at the TERT region associated with longer telomeres. We found that telomere length is negatively correlated with flowering time variation not only in A. thaliana, but also in maize and rice, indicating a link between life history traits and chromosome integrity. Our results point to several possible reasons for this correlation, including the possibility that longer telomeres may be more adaptive in plants that have faster developmental rates (and therefore flower earlier). Our work suggests that chromosomal structure itself might be an adaptive trait associated with plant life history strategies.

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