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1.
J Anim Ecol ; 89(9): 2156-2167, 2020 09.
Artigo em Inglês | MEDLINE | ID: mdl-32686089

RESUMO

Scavenging by vertebrates can have important impacts on food web stability and persistence, and can alter the distribution of nutrients throughout the landscape. However, scavenging communities have been understudied in most regions around the globe, and we lack understanding of the biotic drivers of vertebrate scavenging dynamics. In this paper, we examined how changes in prey density and carrion biomass caused by population cycles of a primary prey species, the snowshoe hare Lepus americanus, influence scavenging communities in the northern boreal forest. We further examined the impact of habitat and temperature on scavenging dynamics. We monitored the persistence time, time until first scavenger, and number of species scavenging experimentally-placed hare carcasses over four consecutive years in the southwestern Yukon. We simultaneously monitored hare density and carrion biomass to examine their influence relative to temperature, habitat, and seasonal effects. For the primary scavengers, we developed species-specific scavenging models to determine variation on the effects of these factors across species, and determine which species may be driving temporal patterns in the entire community. We found that the efficiency of the scavenging community was affected by hare density, with carcass persistence decreasing when snowshoe hare densities declined, mainly due to increased scavenging rates by Canada lynx Lynx canadensis. However, prey density did not influence the number of species scavenging a given carcass, suggesting prey abundance affects carrion recycling but not necessarily the number of connections in the food web. In addition, scavenging rates increased in warmer temperatures, and there were strong seasonal effects on the richness of the vertebrate scavenging community. Our results demonstrate that vertebrate scavenging communities are sensitive to changes in species' demography and environmental change, and that future assessments of food web dynamics should consider links established through scavenging.


Assuntos
Comportamento Predatório , Taiga , Animais , Canadá , Ecossistema , Temperatura , Yukon
2.
Ecology ; 99(8): 1716-1723, 2018 08.
Artigo em Inglês | MEDLINE | ID: mdl-29897623

RESUMO

In recent years, it has been argued that the effect of predator fear exacts a greater demographic toll on prey populations than the direct killing of prey. However, efforts to quantify the effects of fear have primarily relied on experiments that replace predators with predator cues. Interpretation of these experiments must consider two important caveats: (1) the magnitude of experimenter-induced predator cues may not be realistically comparable to those of the prey's natural sensory environment, and (2) given functional predators are removed from the treatments, the fear effect is measured in the absence of any consumptive effects, a situation which never occurs in nature. We contend that demographic consequences of fear in natural populations may have been overestimated because the intensity of predator cues applied by experimenters in the majority of studies has been unnaturally high, in some instances rarely occurring in nature without consumption. Furthermore, the removal of consumption from the treatments creates the potential situation that individual prey in poor condition (those most likely to contribute strongly to the observed fear effects via starvation or reduced reproductive output) may have been consumed by predators in nature prior to the expression of fear effects, thus confounding consumptive and fear effects. Here, we describe an alternative treatment design that does not utilize predator cues, and in so doing, better quantifies the demographic effect of fear on wild populations. This treatment substitutes the traditional cue experiment where consumptive effects are eliminated and fear is simulated with a design where fear is removed and consumptive effects are simulated through the experimental removal of prey. Comparison to a natural population would give a more robust estimate of the effect of fear in the presence of consumption on the demographic variable of interest. This approach represents a critical advance in quantifying the mechanistic pathways through which predation structures ecological communities. Discussing the merits of both treatments will motivate researchers to go beyond simply describing the existence of fear effects and focus on testing their true magnitude in wild populations and natural communities.


Assuntos
Cadeia Alimentar , Comportamento Predatório , Animais , Sinais (Psicologia) , Demografia , Medo
3.
BMC Plant Biol ; 16: 15, 2016 Jan 13.
Artigo em Inglês | MEDLINE | ID: mdl-26757721

RESUMO

BACKGROUND: Host RNA-dependent RNA polymerases (RDRs) 1 and 6 contribute to antiviral RNA silencing in plants. RDR6 is constitutively expressed and was previously shown to limit invasion of Nicotiana benthamiana meristem tissue by potato virus X and thereby inhibit disease development. RDR1 is inducible by salicylic acid (SA) and several other phytohormones. But although it contributes to basal resistance to tobacco mosaic virus (TMV) it is dispensable for SA-induced resistance in inoculated leaves. The laboratory accession of N. benthamiana is a natural rdr1 mutant and highly susceptible to TMV. However, TMV-induced symptoms are ameliorated in transgenic plants expressing Medicago truncatula RDR1. RESULTS: In MtRDR1-transgenic N. benthamiana plants the spread of TMV expressing the green fluorescent protein (TMV.GFP) into upper, non-inoculated, leaves was not inhibited. However, in these plants exclusion of TMV.GFP from the apical meristem and adjacent stem tissue was greater than in control plants and this exclusion effect was enhanced by SA. TMV normally kills N. benthamiana plants but although MtRDR1-transgenic plants initially displayed virus-induced necrosis they subsequently recovered. Recovery from disease was markedly enhanced by SA treatment in MtRDR1-transgenic plants whereas in control plants SA delayed but did not prevent systemic necrosis and death. Following SA treatment of MtRDR1-transgenic plants, extractable RDR enzyme activity was increased and Western blot analysis of RDR extracts revealed a band cross-reacting with an antibody raised against MtRDR1. Expression of MtRDR1 in the transgenic N. benthamiana plants was driven by a constitutive 35S promoter derived from cauliflower mosaic virus, confirmed to be non-responsive to SA. This suggests that the effects of SA on MtRDR1 are exerted at a post-transcriptional level. CONCLUSIONS: MtRDR1 inhibits severe symptom development by limiting spread of virus into the growing tips of infected plants. Thus, RDR1 may act in a similar fashion to RDR6. MtRDR1 and SA acted additively to further promote recovery from disease symptoms in MtRDR1-transgenic plants. Thus it is possible that SA promotes MtRDR1 activity and/or stability through post-transcriptional effects.


Assuntos
Medicago truncatula/enzimologia , Nicotiana/virologia , Doenças das Plantas/virologia , RNA Polimerase Dependente de RNA/biossíntese , Ácido Salicílico/farmacologia , Vírus do Mosaico do Tabaco/fisiologia , Indução Enzimática , Expressão Gênica , Medicago truncatula/genética , Meristema/virologia , Plantas Geneticamente Modificadas , RNA Polimerase Dependente de RNA/metabolismo , Nicotiana/genética , Vírus do Mosaico do Tabaco/efeitos dos fármacos
4.
J Eval Clin Pract ; 2024 Oct 16.
Artigo em Inglês | MEDLINE | ID: mdl-39415489

RESUMO

RATIONALE: Individuals waiting for total-knee-replacement surgery are at risk of developing morbidities and frailty which may affect their postoperative recovery. Multi-modal prehabilitation could mitigate these unintentional effects. AIMS AND OBJECTIVES: To implement and evaluate a specified online multi-modal prehabilitation intervention in patients waiting for total-knee-replacement surgery in a large urban acute hospital trust. METHOD: A non-randomised, pre/post analysis implementation pilot with a nested qualitative study was conducted and is reported following the standards for implementation studies (StaRI) guidance. Of 35 listed cases, 12 (34%) were eligible, recruited, and completed an 8-week multi-modal online intervention incorporating 5 modalities (i) cardiovascular exercise, (ii) strength/balance function, (iii) smoking cessation, (iv) opioid use, (v) nutritional intake. Interventions were specified using the Rehabilitation Treatment Specification System, where rehabilitation treatment theory accounts for discrete treatment components. Two participated in an online qualitative interview post-intervention. Process evaluation included intervention fidelity, eligibility/recruitment/retention rates, and clinical outcomes included knee function, frailty, gait velocity, anxiety/depression, and quality of life. RESULTS: Five participants (42%) completed the intervention and were retained at follow-up. The intervention was delivered online at specified doses, frequency/durations indicative of high respective adherence, quantity, and exposure fidelity. There was significant improvement in median oxford knee score (p = 0.015), gait velocity (p = 0.040) and anxiety (p = 0.023). The interview revealed 5 themes; surgery preconceptions, motivation, acceptability, postoperative experiences, and future recommendations confirming acceptance of the intervention by virtue of adhering to the treatment exposure delivered as planned. CONCLUSION: The specified multi-modal prehabilitation was acceptable, implementable, and demonstrated evidence of preliminary efficacy. Further experimental pilot work that represents the spectrum of frailty, obesity, quality of life, and comorbidities associated with total-knee-replacement surgery is indicated.

5.
Ecol Evol ; 10(21): 12147-12156, 2020 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-33209277

RESUMO

Extreme weather events (EWEs) are expected to increase in stochasticity, frequency, and intensity due to climate change. Documented effects of EWEs, such as droughts, hurricanes, and temperature extremes, range from shifting community stable states to species extirpations. To date, little attention has been paid to how populations resist and/or recover from EWEs through compensatory (behavioral, demographic, or physiological) mechanisms; limiting the capacity to predict species responses to future changes in EWEs. Here, we systematically reviewed the global variation in species' demographic responses, resistance to, and recovery from EWEs across weather types, species, and biogeographic regions. Through a literature review and meta-analysis, we tested the prediction that population abundance and probability of persistence will decrease in populations after an EWE and how compensation affects that probability. Across 524 species population responses to EWEs reviewed (27 articles), we noted large variation in responses, such that, on average, the effect of EWEs on population demographics was not negative as predicted. The majority of species populations (80.4%) demonstrated compensatory mechanisms during events to reduce their deleterious effects. However, for populations that were negatively impacted, the demographic consequences were severe. Nearly 20% of the populations monitored experienced declines of over 50% after an EWE, and 6.8% of populations were extirpated. Population declines were reflected in a reduction in survival. Further, resilience was not common, as 80.0% of populations that declined did not recover to before EWE levels while monitored. However, average monitoring time was only two years with over a quarter of studies tracking recovery for less than the study species generation time. We conclude that EWEs have positive and negative impacts on species demography, and this varies by taxa. Species population recovery over short-time intervals is rare, but long-term studies are required to accurately assess species resilience to current and future events.

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