Environmental Stewardship: Protecting Our Planet’s Future

The research question addressed in this project was how can Understanding by Design be used to create a curriculum that can be used to teach upper elementary students the basis of environmental stewardship? The motivating factor behind this project was a noticeable lack of outdoor exploration in public elementary schools, combined with limited science instruction in the classroom. Designing the curriculum using and Understanding by Design framework, the unit includes lessons on habitats, food webs, natural resources, and interdependence. Methods of teaching include hands-on and multimedia lessons, and time for free outdoors exploration. The unit culminates in a group presentation about a chosen species. The overall goal of the unit is to introduce the basics of environmental awareness to students and increase their knowledge of environmental issues. Included with this curriculum are copies of assessments, games, and handouts

The Experience of Wellness for Counselor Education Doctoral Students Who are Mothers in the Southeastern Region of the United States

The purpose of this phenomenological study was to explore the experience of wellness in counselor education doctoral students who are mothers of children under the age of 18. Seven participants from universities in the southeastern region of the United States completed two rounds of interviews and one focus group. Participants were at varying stages of motherhood and different points in their doctoral journeys. Findings included participants\u27 views of motherhood and womanhood, sacrifices and rewards, counselor education program support, wellness, and dissonance of multiple roles. Findings were compared within and across cases using themes and categories. Suggestions for further research as well as implications for this population and counselor education are offered

Diet Quality and Food Limitation Affect the Dynamics of Body Composition and Digestive Organs in a Migratory Songbird (Zonotrichia Albicollis)

Migrating songbirds interrupt their feeding to fly between stopover sites that may vary appreciably in diet quality. We studied the effects of fasting and food restriction on body composition and digestive organs in a migratory songbird and how these effects interacted with diet quality to influence the rate of recovery of nutrient reserves. Food limitation caused whitethroated sparrows to reduce both lean and fat reserves, with about 20% of the decline in lean mass represented by a decline in stomach, small intestine, and liver. During refeeding on diets similar in nutrient composition to either grain or fruit, foodlimited grain-fed birds ate 40% more than did control birds, and they regained body mass, with on average 60% of the increase in body mass composed of lean mass including digestive organs. In contrast, food-limited fruit-fed birds did not eat more than did control birds and did not regain body mass, suggesting that a digestive constraint limited their food intake. The interacting effects of food limitation and diet quality on the dynamics of body composition and digestive organs in sparrows suggest that the adequacy of the diet at stopover sites can directly influence the rate of recovery of body reserves in migrating songbirds and hence the pace of their migration

Seasonal Changes in Composition of Lipid Stores in Migratory Birds: Causes and Consequences

It is well established that birds use fat stores to primarily fuel migration; however, few studies have focused on the causes and consequences of observed seasonal changes in fatty acid composition of fat stores in birds. We propose and test two hypotheses that address the causes of these seasonal changes in composition of fat stores: (1) diet composition determines fatty acid composition of fat stores, and (2) birds selectively metabolize and store certain fatty acids during migration in lieu of changing their diet. When we offered Red-eyed Vireos (Vireo olivaceous) choices between diets that differed only in fatty acid composition, vireos preferred diets with more triolein over diets with more tristearin and tripalmitin, and these preferences were similar between seasons. We also collected fat samples six times throughout the year from captive Red-eyed Vireos fed one of two diets differing in fatty acid composition, and found that fatty acid composition of stored fat differed by diet and changed over time, although these changes were not season-specific or consistent with the selective-metabolism hypothesis.Thus, fatty acid composition of stored fat was primarily a product of diet composition; selective metabolism possibly played a minor, but important, role. Given recent evidence that fatty acid composition of birds affects their energy expenditure during intense exercise, the implication is that birds at stopover sites can influence the fatty acid composition of their body fat by selective feeding, and this can significantly affect the energetic cost of migration

The Fat of the Matter: How Dietary Fatty Acids Can Affect Exercise Performance

Fatty-acid composition of fat stores affects exercise performance in a variety of vertebrates although few such studies focus on flying vertebrates such as migratory birds, which are exceptional exercisers. We first discuss the natural variation in quality of fat available in natural foods eaten by migratory birds and their behavioral preferences for specific fatty acids in these foods. We then outline three proposed hypotheses for how dietary fatty acids can affect exercise performance, and some of the evidence to date that pertains to these hypotheses with special emphasis on the exercise performance of migratory birds. In theory, selectively feeding on certain long-chain unsaturated fatty acids may be advantageous because (1) such fatty acids may be metabolized more quickly and may stimulate key facets of aerobic metabolism (fuel hypothesis); (2) such fatty acids may affect composition and key functions of lipid-rich cell membranes (membrane hypothesis); and (3) such fatty acids may directly act as signaling molecules (signal hypothesis). Testing these hypotheses requires cleverly designed experiments that can distinguish between them by demonstrating that certain fatty acids stimulate oxidative capacity, including gene expression and activity of key oxidative enzymes, and that this stimulation changes during exercise

Horseshoe Crab Eggs: A Rare Resource for Predators in Long Island Sound

In Delaware Bay, the spawning of several million horseshoe crabs (Limulus polyphemus) coincides with the arrival of migratory shorebirds that feed on their eggs. High horseshoe crab spawning densities and resulting high egg densities drive egg availability and predation rates. At high spawning densities, female horseshoe crabs perturb previously deposited clutches causing eggs to rise to the sediment surface (surface egg densities average 100,000 eggs m− 2). At the surface (0–5 cm), the eggs are quickly depleted by shorebirds and other predators. This interaction between egg density and egg predation has not been explicitly explored on beaches with low spawning densities such as on the Connecticut (CT) shore of Long Island Sound (LIS). Spawning indices in LIS (range: 0.002 to 0.02 females m− 2) are two to three orders of magnitude less than in Delaware Bay (0.7–1.0 females m− 2). Given the low spawning density and correspondingly low subsurface egg density (x = 1.5 eggs cm− 2), we predicted that the frequency of egg predation would be rare. A series of exclosures was constructed on two known horseshoe crab spawning beaches to test the frequency and rate of predation on horseshoe crab eggs. There was no significant difference between egg masses initially placed in artificial nests and recovered at the conclusion of each experiment. While shorebirds were observed probing sediments within and outside of experimental plots, eggs were never observed at the surface during this study. Foraging by shorebirds for buried eggs may be energetically prohibitive given the lack of eggs on the surface and the low subsurface egg densities on CT beaches in LIS (range = 0.6–2.4 egg cm− 2). Limited egg predation by fish was observed but tidal scouring of eggs buried below mean tide primarily drove egg availability for these predators. We conclude that horseshoe crab egg predation is a rare occurrence in Connecticut due to low egg density as a direct result of low spawning densities

How Birds During Migration Maintain (Oxidative) Balance

Animals dynamically adjust their physiology and behavior to survive in changing environments, and seasonal migration is one life stage that demonstrates these dynamic adjustments. As birds migrate between breeding and wintering areas, they incur physiological demands that challenge their antioxidant system. Migrating birds presumably respond to these oxidative challenges by up-regulating protective endogenous systems or accumulating dietary antioxidants at stopover sites, although our understanding of the pre-migration preparations and mid-migration responses of birds to such oxidative challenges is as yet incomplete. Here we review evidence from field and captive-bird studies that address the following questions: (1) Do migratory birds build antioxidant capacity as they build fat stores in preparation for long flights? (2) Is oxidative damage an inevitable consequence of oxidative challenges such as flight, and, if so, how is the extent of damage affected by factors such as the response of the antioxidant system, the level of energetic challenge, and the availability of dietary antioxidants? (3) Do migratory birds ‘recover’ from the oxidative damage accrued during long-duration flights, and, if so, does the pace of this rebalancing of oxidative status depend on the quality of the stopover site? The answer to all these questions is a qualified ‘yes’ although ecological factors (e.g., diet and habitat quality, geographic barriers to migration, and weather) affect how the antioxidant system responds. Furthermore, the pace of this dynamic physiological response remains an open question, despite its potential importance for shaping outcomes on timescales ranging from single flights to migratory journeys. In sum, the antioxidant system of birds during migration is impressively dynamic and responsive to environmental conditions, and thus provides ample opportunities to study how the physiology of migratory birds responds to a changing and challenging world

Effect of Electrical Stimulation and Hot Boning on Beef Tenderness

Food Scienc

Effective workload management in child welfare: Understanding the relationship between caseload and workload

A common assumption in public social service organizations is that workload may be positively associated with caseload. However, few empirical studies have examined what specific characteristics of caseload affect caseworkers' workloads in the child welfare system. This study attempts to address this gap by identifying specific individual and regional factors that influence both subjective and objective dimensions of workloads. Survey data were collected from 1,244 caseworkers at one public child welfare agency in a Midwestern state in the United States. The data indicated that both perceptions of unmanageable workloads and self‐reported overtime work were significantly higher when caseworkers had a greater number of cases than the state caseload standard for the investigations units and worked with at least two different types of cases simultaneously (e.g., working with both investigation and ongoing service cases). Additionally, sufficient staffing numbers to meet caseload demands at the regional level significantly decreased the odds ratio of having to do overtime work. The major findings suggest that the objective and subjective dimensions of workload vary by individual‐ and regional‐level variables. Practice implications are discussed for effective and efficient workload management in the public child welfare system

Air pollution assessment over Po valley (Italy) using satellite data and ground station measurements

Due to their effect on human health, the study of atmospheric pollutants is an important concern in the Po valley – northern Italy – one of the main industrialized and populated areas of the country. Our work focuses on the applicability of satellite Aerosol Optical Depth (AOD) retrievals in support of air quality monitoring and assessment in urban environments within the Po valley. This has been accomplished by using the implementation of the International MODIS/AIRS Processing Package (IMAPP) Air Quality Applications software, IDEA-I (Infusing satellite Data into Environmental Applications-International) over the Po valley study area. IDEA-I is a globally configurable software package that uses either Terra or Aqua MODerate resolution Imaging Spectro-radiometer (MODIS) AOD product retrievals to identify local domains of high values of aerosol. For our specific analyses, IDEA-I has been used over the large European domain, centred over the Po Valley. One year (2012) of MODIS AOD product retrievals from MODIS on board NASA’s Terra (MOD04) or Aqua (MYD04) satellite has been considered using IDEA-I in a retrospective study. These retrieved data have been also compared with the Particulate Matter (PM 10 ) measurements from the Italian Agency for Environmental Protection (ARPA) ground-based network stations. The acceptable results obtained by the correlation PM 10 – AOD suggest the satellite AOD as a good substitute for monitoring air quality over the Po valley domain. Yet the 10 km resolution of MODIS – AOD product is considered too large for air quality studies at urban scale. Recently, a new Multi-Angle Implementation of Atmospheric Correction (MAIAC) algorithm has been developed for MODIS which provides AOD data at 1 km of spatial resolution. We have evaluated ability of MODIS product MOD04 and MAIAC products to characterize the spatial distribution of aerosols in the urban area through comparison with surface PM 10 measurements. Using MAIAC data at 1 km, we have examined the relationship between PM 10 concentrations, AOD, and AOD normalized by Planetary Boundary Layer (PBL) depths obtained from NOAA National Center for Environmental Prediction (NCEP) Global Data Assimilation System (GDAS), for the same period of analysis. Results show that the MAIAC retrieval provides a high resolution depiction of the AOD within the Po Valley and performs nearly as well in a statistical sense as the standard MODIS retrieval during the time period considered. Results also highlight that normalization by the analyzed PBL depth to obtain an estimate of the mean boundary layer extinction is needed to capture the seasonal cycle of the observed PM 10 over the Po Valley