Nitrogen Isotope Composition, Nitrogen Amount, and Fruit Yield of Tomato Plants Affected by the Soil–Fertilizer Types

Trandel, Marlee A; Vigardt, April; Walters, S. Alan; Lefticariu, Mihai; Kinsel, Mary

doi:10.1021/acsomega.8b00296

Cited by 22 publications

(13 citation statements)

References 26 publications

(97 reference statements)

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“…Synthetic fertilizers (e.g. Miracle Grow used here) cause lower leaf δ 15 N relative to organic sources like peat humus (used in our media), as fertilizer has more ammonium, which requires a single assimilation event (in roots) vs multiple assimilation events (in roots and shoots) for soil nitrate sources (Evans et al , 1996; Bateman et al , 2005; Trandel et al , 2018). We infer that well‐watered Arabidopsis plants without competition used more N from the peat humus vs fertilizer.…”

Section: Discussionmentioning

confidence: 99%

Competition × drought interactions change phenotypic plasticity and the direction of selection on Arabidopsis traits

Lorts

Lasky

2020

New Phytologist

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Populations often exhibit genetic diversity in traits involved in responses to abiotic stressors, but what maintains this diversity is unclear. Arabidopsis thaliana exhibits high within-population variation in drought response. One hypothesis is that competition, varying at small scales, promotes diversity in resource use strategies. However, little is known about natural variation in competition effects on Arabidopsis physiology. We imposed drought and competition treatments on diverse genotypes. We measured resource economics traits, physiology, and fitness to characterize plasticity and selection in response to treatments. Plastic responses to competition differed depending on moisture availability. We observed genotype-drought-competition interactions for relative fitness: competition had little effect on relative fitness under well-watered conditions, whereas competition caused rank changes in fitness under drought. Early flowering was always selected. Higher d 13 C was selected only in the harshest treatment (drought and competition). Competitive context significantly changed the direction of selection on aboveground biomass and inflorescence height in wellwatered environments. Our results highlight how local biotic conditions modify abiotic selection, in some cases promoting diversity in abiotic stress response. The ability of populations to adapt to environmental change may thus depend on small-scale biotic heterogeneity.

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Section: Discussionmentioning

confidence: 99%

Competition × drought interactions change phenotypic plasticity and the direction of selection on Arabidopsis traits

Lorts

Lasky

2020

New Phytologist

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“…In agricultural soil, the application of organic fertilizers can alter the bacterial diversity and structure by shifting soil nutrients, pH and organic matter, and so on. , Because bacteria play key roles in determining viral survival and production, , organic fertilizers may further influence soil viral communities by changes in the structure of bacterial communities. In addition, soil pH, organic matter, and other soil characteristics may affect the viral community distribution through influencing virus transport in soil. , Moreover, organic fertilizers (e.g., sewage sludge and manure) have been shown to contain many ARGs carried by viruses, , which may be transmitted to soil via fertilization, resulting in a potential threat to soil health.…”

Section: Introductionmentioning

confidence: 99%

Viral Community and Virus-Associated Antibiotic Resistance Genes in Soils Amended with Organic Fertilizers

Chen

Liao

et al. 2021

Environ. Sci. Technol.

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Antibiotic resistance is a global health concern. Long-term organic fertilization can influence the antibiotic resistome of agricultural soils, posing potential risks to human health. However, little is known about the contribution of viruses to the dissemination of antibiotic resistance genes (ARGs) in this context. Here, we profiled the viral communities and virus-associated ARGs in a long-term (over 10 years) organic fertilized field by viral metagenomic analysis. A total of 61,520 viral populations (viral operational taxonomic units, vOTUs) were retrieved, of which 21,308 were assigned at the family level. The viral community structures were significantly correlated with the bacterial community structures (P < 0.001) and the dosage of applied sewage sludge (r 2 = 0.782). A total of 16 unique ARGs were detected in soil viromes, and the number of virus-associated ARG subtypes was higher in sewage sludge treatments (except for 1 SS) than others. The network analysis showed that the application of the organic fertilizer increased the bacteria–virus interactions, suggesting that the chances of ARG exchange between viruses and their hosts may increase. Overall, our results provide a novel understanding about virus-associated ARGs and factors affecting the profile of viral community in fertilized soil.

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“…raisins, cheese, peanuts, bread, hot dogs) had heavy nitrogen and carbon isotopic compositions. For nitrogen, this was likely due to the use of fertilizers (Trandel et al 2018) and, for carbon, because of the prevalence of C 4 plants (e.g. corn and wheat grain; Rangan et al 2016) in the production of processed foods.…”

Section: Methodsmentioning

confidence: 99%

Causes and consequences of variation in diet composition of nestling Canada jays

Freeman

Newman

Sutton

et al. 2021

Journal of Avian Biology

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Diet quality during development can impact growth, physiology, behaviour and survival. The Canada jay is a resident boreal passerine that caches a wide variety of perishable food items in late summer and autumn for its over‐winter survival and late‐winter reproduction. A previous experiment found evidence that food supplementation of Canada jay pairs during the nestling period had a positive effect on the condition of their nestlings. However, given that foods cached by adults vary widely in nutritional content, the composition of nestling diets could also have an important influence on offspring development. In a population of Canada jays in Algonquin Provincial Park, Ontario, Canada, we investigated the influence of environmental conditions before and during the breeding season on nestling diet composition and the consequences of nestling diet composition on the body condition of nestlings and on their subsequent survival. Using stable‐carbon (δ13C) and ‐nitrogen (δ15N) isotopes, we estimated the proportion of three food groups (vertebrates + human food, invertebrates and plants) in feathers from almost 200 nestlings. Nestling diet in March and April was influenced by environmental conditions 5–6 months prior to hatching, with warmer and more variable autumn temperatures associated with a greater proportion of vertebrate flesh and human food in the diet. However, the proportion of vertebrates and human food in the diet had no influence on nestling body condition or whether an individual was observed the following fall. Our results, in conjunction with previous work on Canada jays, suggest that the quantity of food available to a nestling during development may be more important than diet composition.

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Nitrogen Isotope Composition, Nitrogen Amount, and Fruit Yield of Tomato Plants Affected by the Soil–Fertilizer Types

Cited by 22 publications

References 26 publications

Competition × drought interactions change phenotypic plasticity and the direction of selection on Arabidopsis traits

Competition × drought interactions change phenotypic plasticity and the direction of selection on Arabidopsis traits

Viral Community and Virus-Associated Antibiotic Resistance Genes in Soils Amended with Organic Fertilizers

Causes and consequences of variation in diet composition of nestling Canada jays

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