Costs and Benefits of Delaying Remediation on Ecological Resources at Contaminated Sites Abstract The USA and other nations have massive industrial, radiologic, and chemical legacy wastes on numerous sites, for example from the Cold War and industrial activities. Most of these sites will require remediation (cleanup of contaminants). Prioritization is essential to determine the order of cleanup, leaving some tasks for a later time. This paper examines the potential costs and benefits of delaying remediation on ecological resources on contaminated sites. Aspects to consider include those related to management and planning, source term and pathways, risks and resources, and external drivers (regulations and laws, stakeholders). The US Department of Energy was used as a case study to examine the effects of delaying remediation. The conceptual model and tables provided here can serve as guidance or checklists for site managers.

Carnivore Protoparvovirus 1 at the Wild–Domestic Carnivore Interface in Northwestern Mexico Abstract Eighty-three wild and domestic carnivores of nine species from Janos Biosphere Reserve (JBR), Mexico, were tested by serologic and molecular assays to determine exposure and infection rates of carnivore protoparvovirus 1. Overall, 50.8% (33/65) of the wild carnivores and 100% (18/18) of the domestic dogs tested were seropositive for Canine protoparvovirus 1 (CPV), while 23% (15/65) of the wild carnivores and 22.2% (4/18) of the domestic dogs were PCR positive for CPV. Phylogenetic analysis confirmed circulation of CVP-2 with residues 426 Asn (CPV2a = 1/19) and 426 Glu (CPV-2c = 18/19) among carnivores in JBR. The prevalence of both PCR positivity and antibodies to CPV varied significantly among wild host species. Of the six identified haplotypes, three were unique to kit foxes (Vulpes macrotis) (the species with higher haplotype richness) and two to striped skunks (Mephitis mephitis). The remaining haplotype was shared among all carnivore species including dogs suggesting non-host specificity and bidirectional and continuous viral transmission cycle in the JBR. The phylogenetic similarity of CPV strains from dogs and wild carnivores and the higher prevalence of CPV in wild carnivores captured near towns relative to those captured far from towns suggest that dogs might be an important source of CPV infection for wild carnivores in the JBR. We provide evidence that cross-species transmission occurs at the domestic–wildlife interface in JBR.

Hantavirus Pulmonary Syndrome Risk in Entre Ríos, Argentina Abstract Hantavirus pulmonary syndrome (HPS) is a severe emerging endemic disease of the Americas. Because hantavirus reservoirs are sylvatic rodents, HPS risk has been associated with occupational and recreational activities in natural and rural environments. The aim of this study was to analyze the risk of HPS in an endemic province of Argentina. For this, we explored the relationship between HPS cases occurring in Entre Ríos province between 2004 and 2015 and climate, vegetation, landscape, reservoir population, and rodent community characteristics by means of generalized linear models. We modeled HPS occurrence at each site, and both the incidence and number of cases grouped by department. The resulting best model of each analysis was applied in a GIS to build HPS risk maps. Risk of occurrence of HPS increased with tree cover and decreased with distance to rivers. We identified the south of Entre Ríos as the area with higher HPS risk, and therefore, where HPS prevention measures should be more urgently applied. Risk maps based on data available in the public domain are a useful tool that should be used by decision makers to concentrate surveillance and control efforts in those areas with highest HPS risk.

EcoHealth Action Over Lifetimes: Unity of Spirit, Voice, and Deeds

Epidermal Lesions and Injuries of Coastal Dolphins as Indicators of Ecological Health Abstract Humpback dolphins (genus Sousa), obligatory inshore delphinids, are frequently exposed to adverse effects of many human activities. In Hong Kong, one of the world’s most urbanised coastal regions, ~ 50% of the dolphins suffer from at least one type of epidermal lesions, likely related to anthropogenically degraded habitat. Furthermore, one in every ten dolphins has physical injuries indicative of vessel collisions, propeller cuts and fishing-gear entanglements. As top predators with long lifespan, dolphins are good “barometers” of marine environment and their compromised health conditions are symptomatic of increasingly degraded ecological conditions of coastal seas, especially in rapidly developing regions of fast-growing economies.

Population Dynamics of Bank Voles Predicts Human Puumala Hantavirus Risk Abstract Predicting risk of zoonotic diseases, i.e., diseases shared by humans and animals, is often complicated by the population ecology of wildlife host(s). We here demonstrate how ecological knowledge of a disease system can be used for early prediction of human risk using Puumala hantavirus (PUUV) in bank voles (Myodes glareolus), which causes Nephropathia epidemica (NE) in humans, as a model system. Bank vole populations at northern latitudes exhibit multiannual fluctuations in density and spatial distribution, a phenomenon that has been studied extensively. Nevertheless, existing studies predict NE incidence only a few months before an outbreak. We used a time series on cyclic bank vole population density (1972–2013), their PUUV infection rates (1979–1986; 2003–2013), and NE incidence in Sweden (1990–2013). Depending on the relationship between vole density and infection prevalence (proportion of infected animals), either overall density of bank voles or the density of infected bank voles may be used to predict seasonal NE incidence. The density and spatial distribution of voles at density minima of a population cycle contribute to the early warning of NE risk later at its cyclic peak. When bank voles remain relatively widespread in the landscape during cyclic minima, PUUV can spread from a high baseline during a cycle, culminating in high prevalence in bank voles and potentially high NE risk during peak densities.

Antibiotics and Resistance Genes in Awash River Basin, Ethiopia Abstract Among contaminants of emerging concern in the environment, a growing attention has been given to antibiotics and antibiotic-resistant genes (ARGs) due to the rise in their usage and potential ecotoxicological and public health effect. However, the occurrence of these contaminants in the environment is little investigated in developing countries particularly in sub-Saharan regions. In this study, the occurrence of three groups of antimicrobials including tetracycline, sulfonamides and fluoroquinolone, and their corresponding ARGs were investigated in the sediments of Awash River Basin, Ethiopia. Out of twelve studied compounds, sulfadiazine and enrofloxacin showed the highest and lowest detection frequency, respectively. Polymerase chain reaction (PCR) analysis revealed that tetA and tetB occurred in all the samples. The relative abundance of the resistant genes was in the following order: tetA > tetB > sul2 > sul1. Redundancy analysis result indicated that some sediment characteristics were found to have influence on the distribution sul1-resistant gene.

Antimicrobial Residues in Chicken and Fish, Chittagong, Bangladesh Abstract A cross-sectional observation and an intervention study were conducted in Chittagong, Bangladesh in 2015 to assess the status of antimicrobial residues in chicken and fish. The samples were tested for selected antimicrobials (amoxicillin, ciprofloxacin, oxytetracycline and enrofloxacin) using thin-layer chromatography (TLC). The TLC-based overall prevalence of residues was 87.9% in chicken (N = 182) and 56.9% in fish (N = 153). The prevalences in chicken in June (N = 91) and in October (N = 91), respectively, were 91.2% and 83.5% (amoxicillin), 1.1% and 1.1% (enrofloxacin), 1.1% and 0% (ciprofloxacin), and 0% and 6.6% (oxytetracycline). In fish, the prevalence in September (N = 74) and in October (N = 79) was 52.7% and 44.3% (amoxicillin) and 1.4% and 27.8% (oxytetracycline), respectively. The mean concentration of amoxicillin residue was evaluated by ultra-high-performance liquid chromatography to be 508.4 mg/kg (chicken) and 515.4 mg/kg (fish). The random effect model identified market (Chawkbazar vs. Boalkhali: OR 5.7; Steelmill bazar vs. Boalkhali: OR 5.6) as significant factors for amoxicillin residue in chicken. Amoxicillin concentration was significantly reduced in chicken of Kazirhat (β= − 1.3) and Chawkbazar (β= − 1.1) and increased in October (β= 0.77) based on a generalized linear model (GLM). Climbing perch fish had significantly more risk of having amoxicillin residue than that of Bombay duck (OR = 0.05). All samples were treated by washing, boiling and cooking with spices, and then, TLC-based screening of amoxicillin residues was done. A subset of each treated group was evaluated by UHPLC. Treatment reduced amoxicillin residue levels significantly.

Critical Importance of a One Health Approach to Antimicrobial Resistance

So Sing the Redwoods of San Servolo