Category: Grants Awarded

2018 Exploration and Field Research Grant Recipients

2018 Exploration and Field Research Grant Recipients

Samantha Gleich (Ph.D.), University of Maryland, Center for Environmental Science, Horn Point Laboratory, “Water quality and the silification of diatom communities of the Anacostia River, Chesapeake Bay”, Virginia.
The Anacostia River is a highly polluted tributary of Chesapeake Bay that runs through Washington D.C. and empties into the Potomac River. The recently completed, soon to be implemented, multi-billion dollar infrastructure project, the Anacostia River Tunnel, was devised to improve the water quality of this river by diverting sewer effluent and storm water overflow to a wastewater treatment plant. In order to assess the effectiveness of the Tunnel project in terms of water quality improvement, biweekly to monthly sampling will be undertaken, in conjunction with a study already funded by Maryland Sea Grant, which focuses on whether there is a change in the algal community as water quality changes. This project will supplement the planned measurements in the study by focusing on the productivity of silicious diatom communities, those algae that are normally considered favorable for aquatic ecosystems. The funds will allow for the measurement of the changes in dissolved silica and its use by the diatom communities. Through direct measurements and targeted experimentation, in conjunction with this funded project, an improved understanding of the water quality, nutrient cycling, and microbial community health in the Anacostia River will be achieved.

Lauren Jonas (M.S.), University of Maryland, Center for Environmental Science, Columbus Center, “Phosphorus and marine sponges: investigating a key element within the coral reef biogeochemical cycle”, Hawaii.
Marine sponges are abundant filter-feeders in coastal benthic ecosystems and host copious microorganisms. Sponges have emerged as major players within coral reef biogeochemical cycles by facilitating both the intake and release of vital elements such as carbon, nitrogen, and phosphorus. While studies have investigated sponges’ role in transforming dissolved organic carbon and nitrogen into readily bioavailable nutrients for reef fauna, few significant findings have been made regarding their role in phosphorus cycling. This study aims to confirm the presence of phosphorus in the form of polyphosphate within the tissue of five marine sponges from Kāne’ohe Bay in Oʻahu, Hawaii. Sponge sample collection will be combined with experiments examine the mechanisms that control phosphorus cycling within the sponge body. This study of the role of marine sponges and their symbionts in cycling phosphorous will be an important step in understanding the high rates of primary production and respiration found within reef ecosystems. Further, the work will have major implications for filling in the gaps of knowledge of the roles of sponges and their microbiome in the potential release or sequestration of the crucial element, phosphorus.

Adriane Michaelis (Ph.D.), University of Maryland, Anthropology, “Describing cultural ecosystems services associated with oyster aquaculture”, Eastern U.S. coastal states.
Oysters are critical to coastal ecosystem restoration because of the ecosystem services they provide, such as improving water quality, enhancing biodiversity, and reducing the impacts of severe weather events. Within the ecosystem services framework, an approach to valuating the goods provided by an ecosystem, one group of services receives limited attention. Cultural ecosystem services are the nonmaterial goods and benefits provided by a system and are rarely detailed in ecosystem service discussions. In order to simplify and clarify this poorly described concept, I will address cultural services using oyster-based livelihoods. In much of the United States, oyster aquaculture, the farming or growing of oysters, exists alongside or in place of public oyster fisheries, as most wild oyster populations are a small remnant of historic populations. By identifying and describing the social and cultural goods, benefits, and services associated with oyster aquaculture, this project will not only address a void in ecosystem services research, but also evaluate whether oyster aquaculture is able to match the social and cultural goods associated with public fisheries, in order to assess the ability of oyster aquaculture to provide an alternate livelihood in areas of declining public fisheries.

Sylvain Nyandwi (Ph.D.), George Washington University, Anthropology, “Resilience to forest fragmentation in sympatric chimpanzees and golden monkeys in Rwanda: relating fine-scaled measurement of disturbance to behavior and health”, Rwanda.
The role of primates is critical in maintaining a healthy ecosystem, and understanding factors that influence species vulnerability to habitat is key to their successful conservation. This study will be conducted in two sympatric primates, golden monkeys and chimpanzees, in two parks in Rwanda. Gishwati National Park (GNP) is highly-fragmented while Nyungwe National Park (NNP) is characterized by primary vegetation with some sections of secondary growth and some edge effects. These species differ in body size, diet, social organization, and locomotor styles, providing an excellent paradigm to investigate how these factors relate to species vulnerability to different levels of landscape disturbance. This study will characterize differing scales of disturbance and habitat quality from remote sensing data and ground transects; collect fecal samples to quantify parasite load and microbiome; collect behavioral data on ranging, grouping patterns and diet; and test how different levels of landscape disturbance relate to these parameters. This study will provide a critical and detailed understanding of how these two species are affected by habitat disturbance and will allow for the development of more informed conservation strategies, which may include the development of corridors between the two parks.

Nanette C. Raczka (Ph.D.), W VA, Biology, “Investigating how climate change will alter microbial stabilization of soil carbon in tropical forests”, Costa Rica.
Soils store more carbon than the atmosphere and vegetation combined. Thus, understanding how stable soil carbon is formed and lost is critical to predicting how soil processes feedback on climate change. Most climate models predict forests all over the globe will experience drought at a greater frequency and severity. For seasonally dry tropical forests, a key understudied ecosystem, these rainfall shifts have the potential to cause soil carbon losses. One critical uncertainty is whether drought will impact the efficiency at which microbes use soil carbon to make new biomass (i.e., carbon use efficiency. Carbon use efficiency is a keystone microbial trait; whereby increases in carbon use efficiency are theorized to lead to increases in stable soil carbon formation. Under drought, this research will test the hypothesis that microbial carbon use efficiency will decrease, and when rainfall returns to these soils, the inherent rewetting pulse of microbial respiration will drive significant soil carbon losses. This sharp decline in soil carbon storage has the potential to shift these carbon sinks to carbon sources. As such, understanding how drought-induced shifts in microbial carbon use efficiency drive the magnitude of soil carbon losses in response to rewetting events is critical in our ability to predict the rate of global change.

Dorian Russell (M.S), American University, Environmental Sciences, “The influence of edge effects on mantled howler monkey (Alouatta palliata) food resource use and availability in a fragmented forest”, Costa Rica.
This investigation aims to determine whether wild mantled howler monkeys show an edge effect, specifically an aversion to forest zones bordering human activity. Edge effects have been noted in other taxa; for example, many birds show aversion to forest edge and prefer core zones for critical feeding and nesting behaviors. Mantled howler monkey behavior and vegetation diversity will be compared by proximity to forest edge in a fragment surrounded by cattle ranching and pineapple farming. The monkeys will be observed with notation focused on feeding and foraging, including descriptions of the food item (plant part), food species, and maturity (tree circumference). Geographic location will be noted to three-meter accuracy with a handheld GPS device. Vegetation diversity will be surveyed to compare food availability by forest zone. Globally, just 24 percent of tropical forests are intact, and 75 percent of nonhuman primate species are seeing habitat-related population declines. A majority of published ecological studies focus on pristine habitat despite rapid habitat changes; by contrast, this study has conservation implications. If howler monkeys and their preferred foods show an edge effect, we may be underestimating the consequences of habitat fragmentation and area of useable habitat lost.

Elizabeth Tapanes (Ph.D.), George Washington University, “The how and why of diversification and innovation: a study of unusual pelage diversity in a lemur species”, Madagascar.
The genetic mechanisms that drive diversity in observable traits (or, phenotypes) within a species and translate into macro-evolutionary diversity remain poorly understood. Pelage (hair) represents a unique model trait to examine these questions because it is often shaped by natural and/or sexual selection. This project aims to examine the genetic mechanisms and ultimate causes that shape pelage diversity for diademed sifakas in the Tsinjoarivo Classified Forest, Madagascar. Sifakas in Tsinjoarivo exhibit the highest form of pelage variation of any primate species, asides from humans. Samples of hair and cheek swabs will be collected in order to examine multiple potential genetic mechanisms that may lead to phenotypic diversity. Samples will be coupled to hair morphology measurements on color and type for the same individuals. Results may indicate an adaptive function (e.g. thermoregulation) for pelage differences in Tsinjoarivo, while also elucidating underlying genetic changes that produce novel traits. The phenotypic data will be compared to data for the entire sifaka genus, as well as 100+ primate species, to understand the relationship between micro- and macroevolution. Lastly, diademed sifakas are critically endangered. This study has the potential to understand how the species is responding to environmental changes, which can aid conservation priorities.

Josh Wayt (Ph.D.), University of Virginia, Linguistics, “The poetics of Dakota kinship: revitalizing language and reconstituting community at Lake Traverse Reservation”, South Dakota.
This study centers on Dakota people’s efforts to revitalize their heritage language at Lake Traverse Reservation, SD. The relationship between language activism and the broader social dilemmas (e.g. alcoholism, methamphetamine addiction, gang violence, suicide) faced by Dakota people will be examined. Given the existence of such pressing and visceral social problems, questions to be addressed are focus on why the Dakota people so concerned about language revitalization. The hypothesis to be tested is that language activism is fundamentally directed towards redressing such social issues by reconstituting moral relations within the community itself. The main data for testing this hypothesis is the instructional discourse that fluent elders address to linguistic novices. This discourse consistently relates Dakota grammar to principles and protocols for conducting social relationships. Audio-visual recordings of this rhetorically rich instruction will be collected and subsequently analyzed using ethnopoetic methods. At one level, this project will result in a documentary body of a highly endangered Native American language, with special attention to the rhetorical practices that characterize compelling and convincing instruction. At a broader level, this research will contribute to a growing body of ethnographic literature on language revitalization movements by foregrounding the social and cultural motivations that undergird indigenous language activism.

2017 Exploration and Field Research Grant Recipients

2017 Exploration and Field Research Grant Recipients

David S. De La Mater, III (M.S.), Biology Department, The College of William and Mary, “Biogeographic variations in common milkweed (Asclepias syriaca) functional and defensive traits, and their effect on monarch (Danaus plexippus) fitness”, Virginia.
Plants play an important role in structuring ecological communities; however, there is insufficient understanding of how infraspecific biogeographic variations in plant traits affect communities through interactions with herbivores. This research lies at the interface of biogeography, plant traits, and herbivore development, and its purpose is to elucidate the ways in which plant traits affect communities through plant-herbivore interactions. We achieve this by focusing on a model plant-herbivore system: common milkweed (Ascelpias syriaca) and the monarch butterfly (Danaus plexippus). We first quantified the variation in milkweed traits across its entire North American range through field sampling and multivariate statistical techniques. Preliminary data show statistically significant differences between populations, and suggests that as latitude increases, plant height, foliar carbon, chlorophyll, lignin, and herbivory seem to decline while cardenolide concentrations seem to increase. Root stock was harvested from each population to create a common garden of milkweed from across its range. In order to determine how observed variations in milkweed traits affect monarchs, a bioassay will be conducted in which monarch larvae will be fed on milkweed from each sampled population. Differences in monarch development and performance will provide insight into how plant trait variation affects herbivores.

S. Augusta Mccracken (Ph.D.), Anthropology Department, University of Maryland, “Ancient latitudinal diversity gradients of insect herbivory: Exploration of the Cerro del Pueblo Formation”, Mexico.
Plants and insects have an extraordinary evolutionary history, which has led to their unprecedented diversity and abundance in modern terrestrial ecosystems. The ability to predict how plant and insect communities respond to anthropogenic climate change is vital to construct appropriate management strategies. One of the best sources of information on how organisms contend with climate change is in the deep geologic past, such as during the Cretaceous, when the Earth was much hotter than today (tropical to sub-tropical). This research project focuses on the biogeography of fossil plant and insect interactions, specifically looking at how these interactions change across latitude during the Late Cretaceous of North America. The object is to understand how this latitudinal diversity gradient compares to that of today so predictions can be made of changes in plant-insect interactions in the coming decades. Museum collections provide tens of thousands of fossil specimens for this research, but the Cerro del Pueblo Formation in Coahuila, Mexico, must be further excavated in order to obtain a sufficient number of specimens for analysis of insect-damaged leaf fossils.

Enquye Wondimu Negash (Ph.D.), Center for the Advanced Study of Human Paleobiology, George Washington University, “Modelling vegetation structure in modern ecosystems: Implications for hominin landscape dynamics”, Rwanda.
Understanding parameters of vegetation structure, composition and distribution in contemporary ecosystems is crucial for interpreting past ecological conditions. As fossil soils (paleosols) are well-preserved in the fossil record and are commonly used in reconstructing past ecosystems, a detailed study and a comprehensive understanding of modern soils at a high spatial resolution is important in establishing a baseline for interpreting paleosols and their associated vegetation structure. The proposed work uses a multi-proxy approach to calibrate a model of estimating vegetation structure in modern ecosystems to apply the model produced in reconstructing vegetation proportion, distribution and woody cover from paleosols. To do this, phytolith and stable isotopic analysis of soil samples collected from national parks in eastern Africa along varying altitudinal and climatic gradients will be used. This will help better characterize the relationship of each proxy to the vegetation structure in various habitat types and offers a quantitative approach of estimating vegetation structure. The proposed work is part of a project aimed at applying the model produced from this study on paleosols from the Shungura Formation, a hominin bearing fossiliferous site in Southern Ethiopia, which will help in making more precise and accurate interpretations of hominin environments.

Brandon Semel (Ph.D.), Fish and Wildlife Conservation, Virginia Tech, “Advancing Effective Lemur Conservation in the Face of Global Change”, Madagascar.
Primates face an increasing number of threats to their survival (e.g. forest loss, hunting). Despite the mounting threat to countless other taxa, how primates will respond to climate-induced environmental change remains poorly understood. This project will assess the adaptive potential of Madagascar’s critically endangered golden-crowned sifaka (Propithecus tattersalli) in response to anticipated climate change and other proximate threats. Four objectives will be completed to meet this goal: 1) update population estimates and establish a population monitoring program, 2) relate abundance to nutritional properties in different forest types, 3) investigate genetic diversity and adaptive genetic potential across species’ range, and 4) predict land cover change, and relate back to variance in nutritional properties and genetic connectivity, in response to human use and climate change scenarios. Population estimates also will be obtained for endangered crowned (Eulemur coronatus) and Sanford’s brown (E. sanfordi) lemurs in northern Madagascar’s Daraina region. Partnering with Malagasy conservation initiatives will ensure that species monitoring continues long-term and that conservation activities are undertaken that will best promote species persistence in the face of climate change and other threats.

2016 Exploration and Field Research Grant Recipients

2016 Exploration and Field Research Grant Recipients

Laurence Dumouchel, Center for the Advanced Study of Human Paleobiology, George Washington University, “What the world looked like when we started walking upright: The environments of the earliest Australopithecus”, Kenya.

  • Australopithecus anamensis, the earliest undisputed hominin and obligate biped, lived in eastern Africa around 4 million years ago, but fossil remains associated with this species are only found at a handful of sites. Three main fossil sites in the Omo-Turkana Basin (Kanapoi, Allia Bay and Mursi) preserve sediments of this age. However, the abundance of hominin fossils at these sites differs, with the majority (c.70%), of the fossils attributed to anamensis being found at Kanapoi, some (c. 30%) from Allia Bay, and none so far at Mursi. Preliminary paleoecological analyses suggest that there are differences in the environments of these three sites. The project proposed here will test predictions relating hominin abundance to habitat and answer the following question: What were the paleoenvironments of Australopithecus anamensis in the Omo-Turkana Basin and how did they vary among sites? This project will combine taxonomic, ecomorphological and mesowear data to analyze the animal fossils at each site. The results will undoubtedly shed light on the context of the environmental drivers of human bipedal locomotion, an adaptation that played a crucial role in our evolutionary success.

 Sean Knox, Frostburg State University, Biology, “Migration Chronology of Waterfowl and Associated Wetland Food Production at Great Swamp National Wildlife Refuge, Morris County, New Jersey”.

Waterfowl rely on a long line of stopover sites during migration between their wintering and breeding grounds. Along with naturally occurring wetlands, managed wetlands serve as valuable locations where waterfowl can rest and feed. To effectively manage wetlands for certain waterfowl species, knowledge of area-specific migration trends and wetland food production is key. This study will document the waterfowl migration chronology and associated food production of five managed freshwater wetlands located within Great Swamp National Wildlife Refuge, Morris County, New Jersey. To determine migration chronology, weekly ground surveys will be conducted in the spring and fall of 2015 and 2016 using protocols based on the Integrated Waterbird Management and Monitoring Program for the North Atlantic Region. To quantify waterfowl food production, spring and fall sampling will be conducted immediately prior to the arrival of migrating waterfowl, with 20 sampling sites allocated within each wetland. Spring sampling will consist of aquatic invertebrates and belowground seeds, while fall sampling will add in aboveground seeds, tubers, and submerged aquatic vegetation present at each sampling site. Once completed, data will serve as a baseline reference for the Refuge, and will assist Refuge staff in managing wetlands to support the greatest diversity of migrating waterfowl.

Sean M. Lee, George Washington University, Center for the Advanced Study of Human Paleobiology, “Trade-offs between social & physical development in wild bonobos (Pan paniscus)”, Republic of Congo.

Life history theory examines the manner in which organisms allocate energy across different functions over the lifespan in order to maximize reproductive success. This study aims to characterize development, an important period of life history, in one of our closest living relatives, bonobos. Specifically, this study will examine how resources are allocated to two primary components of development, social development and physical growth, and how this is influenced by maternal condition. This is significant because both components are important to human and non-human primates, yet previous research has focused primarily on physical growth. Further, bonobos, along with chimpanzees, are our closest living relatives; extensive research has been carried out on wild chimpanzees, but much less is known about wild bonobos. Therefore, by collecting these data for the first time and using it to compare to chimpanzee development and life history, researchers from various disciplines can learn more about the evolution of human development and life history, thereby expanding understanding of humans’ place in the universe.

Alice Millikin, West Virginia University, School of Natural Resources, “Assessing Spotted Salamander (Ambystoma maculatum) population health in created isolated wetlands to inform habitat creation”, West Virginia.

Wetland habitat is critical to the survival of many amphibians including Spotted Salamanders (Ambystoma maculatum). Spotted Salamanders mate, deposit eggs and complete metamorphosis in isolated fishless wetlands. However, isolated wetlands are not protected due to the U.S. Supreme Court ruling in Solid Waste Agency of Northern Cook County v. U.S. Army Corps of Engineers. Lack of protection is mitigated by creating new isolated wetlands. However, there is limited research on successful establishment of amphibian breeding populations in created pools. Wetland creation could be improved by documenting created pool successes and failures. The goal of this research is to determine which habitat characteristics are conducive to a healthy Spotted Salamander population quantified by disease prevalence, genetic diversity and stress hormone levels. Sampling sites include 30 isolated wetlands created by Monongahela National Forest, WV in 2011, 2013 and 2014. The first field season was completed in 2015 with the second and final field season to follow in 2016.  This research will improve understanding of a new non-invasive hormone test called water-borne hormone assays in field studies. This research will also improve future wetland creation and management and our understanding of local environmental effects on disease prevalence, stress hormone levels, and genetic diversity.

Becca Peixotto, American University, Anthropology, “Exploration and Archeological Survey in the Great Dismal Swamp”, Virginia.

Thousands of marginalized people lived in the Great Dismal Swamp in Virginia and North Carolina, circa 1680-1860. Enslaved laborers built canals and harvested timber for lumber companies. Deep in the Swamp’s interior, maroons, people of African descent fleeing the oppressive conditions of slavery, sought a measure of freedom. This project employs targeted exploration and archaeological survey to define the maroons’ hidden landscape which emerged through resistance to the control of people and space in the Tidewater region. This project will locate and map small islands, a scattered network of which formed the foundation of living space for maroons and enslaved laborers alike.

LiDAR data and information gleaned from historic maps and documents will guide on- the-ground exploration. The resulting new maps and subsequent archaeological testing will enable researchers to chart shifting land-use and material culture patterns and begin to answer questions about how maroons dealt with changes that accompanied canal and timber development and threatened their place of refuge. By going beyond previous site- focused research in the Dismal Swamp to investigate a new geographical area, this research examines how maroons made lives for themselves in a place that was viewed by outsiders as wild and forbidding.

2015 Exploration and Field Research Grant Recipients

2015 Exploration and Field Research Grant Recipients

Grace Capshaw, University of Maryland, Biology. “Hearing in caves: auditory evolution in cave-adapted lungless salamanders (family Plethodontidae)”, Tennessee.

Animals rely on sensory information to respond to environmental stimuli and to guide behavior. Selective pressures influence sensory evolution to facilitate detection of stimuli within the constraints of the environment; however, the extent of sensory variation in closely related animals that occupy different habitats remains poorly understood. This project will examine the auditory system of plethodontid salamanders living under different sensory constraints, specifically cave salamanders and their surface dwelling relatives. The plethodontid family represents a unique opportunity to study auditory evolution independent of vocal communication because it is species rich, widely distributed, and displays high ecological diversity in habitat use. Comparative analysis of auditory variation in species living under different levels of environmental constraint may reveal the selective pressures that induce sensory adaptation. The proposed work will address questions of sensory variation and adaptation within an ecologically-relevant framework and will generate conclusions pertaining to environmental influence on auditory evolution.

Madeleine Gunter, William and Mary, Anthropology. “Settlement stability and floodplain dynamism: A geoarchaeology study of ‘persistent places’ in the Virginia Piedmont”, Virginia.

This project combines geological and archaeological methods to examine the long-term settlement histories of Siouan-speaking Native communities in Virginia’s Dan River drainage between AD 800—1600. Invoking Schlanger’s (1992) concept of “persistent places,” locales made meaningful through their occupation and reoccupation through time, this research seeks to understand why Piedmont communities reoccupied floodplain village sites along the Dan and its tributaries—despite environmental and sociopolitical disadvantages (annual flooding, proximity to hostile groups from the North). By extracting and analyzing a series of sediment cores from across the site’s main floodplain, this project seeks to contextualize the site’s various archaeological features–evidence of relatively stable occupation–within the region’s dynamic fluvial history. Though regionally and methodologically focused, this project is significant because it joins a broader conversation about the nature of human/environment interaction that seeks to understand how past humans shaped, and were shaped by, the landscapes on which they lived.

Melanie Jackson, University of Maryland, Center for Environmental Science. “Determining the effect of ammonium on algal community composition and physiology in the Anacostia River in Washington DC”, District of Columbia.

It is well known that that the Anacostia River has poor water quality based on its history of toxins and pathogens; however, nutrient pollution, primarily in the form of nitrogen (N) has been less well recognized. In coastal ecosystems in general, nutrient pollution is known to lead to eutrophication and increased hypoxia and abundance of harmful algal bloom species. Excess N is one of the major pollution problems in the Anacostia River, largely due to sewage effluent and combined sewer overflows from both effluent and storm water runoff. This project aims to assess the sources and fates of N forms in the Anacostia River and their relationship with algal blooms. Anacostia River sampling will be combined with experiments involving enrichments with NH4+ and NO3 to evaluate the impact of N loads and forms on phytoplankton species composition and productivity. Considering the growing number and increasing frequency of harmful algal blooms worldwide, this research has implications for food web structure and productivity of coastal estuaries.

Chrisandra Kufeldt, George Washington University, Human Biology. “Does dental microstructure carry a phylogenetic signal?”, Arizona, Massachusetts, United Kingdom.

Sound hypotheses about phylogenetic relationships are necessary for understanding the comparative context of the evolutionary changes that have occurred within the hominin lineage. This project will combine a new suite of morphological characters derived from dental microstructure to test the efficacy of hard tissue characters for recovering evolutionary relationships among great apes and monkeys whose phylogeny is well established from genetic evidence. The objective of this study is to conduct a comprehensive study of enamel growth in primate samples in order to produce data to use in a phylogenetic analysis. The study sample suite for this project includes previously collected and sectioned thin sections of mandibular molars from great apes and species of both old world and new world monkeys. . Demonstrating the efficacy of these methods with a new suite of characters in a comparative context is critical for future application to the hominin fossil record, this is important considering paleoanthropology remains one of the few fields without reliable phylogenetic hypotheses

Joeva Rock, American University, Anthropology. “Sankofa: Utilizing traditional agricultural practice for modern development”, Ghana.

Food and farming are inherently social processes, but changes in agricultural practice in Ghana are changing ecological and cultural landscapes. As a result, Ghanaian farmers are opting out of cash-crop development schemes and instead turning to sustainable subsistence farming that draws on socio-cultural agricultural knowledge. The usefulness of local knowledge is contested. While some argue that it ought to be crucial a component of agricultural development, others disagree over the viability of the use of local knowledge and small-scale farms to meet modern needs. This project explores how Ghanaians define and pursue sustainable, culturally-relevant agricultural practice. Ethnographic research will be conducted in the Ghanaian capital of Accra and based out of the offices of ILK, a Ghanaian agricultural organization. This project employs two core methods: 1) participant observation at ILK to understand how sustainability and cultural values are defined and integrated in to practice, and 2) semi-structured interviews with farmers and with key actors in Ghanaian agricultural policy and programming spheres. By approaching agricultural development beyond production and consumption, and instead establishing food as a cultural cornerstone, this project will aid in designing and maintaining truly sustainable development interventions.

Five grantees receive ECWG exploration research awards for 2015

Five grantees receive ECWG exploration research awards for 2015

 

Grace Capshaw, University of Maryland, Biology. “Hearing in caves: auditory evolution in cave-adapted lungless salamanders (family Plethodontidae)”, Tennessee.

Animals rely on sensory information to respond to environmental stimuli and to guide behavior. Selective pressures influence sensory evolution to facilitate detection of stimuli within the constraints of the environment; however, the extent of sensory variation in closely related animals that occupy different habitats remains poorly understood. This project will examine the auditory system of plethodontid salamanders living under different sensory constraints, specifically cave salamanders and their surface dwelling relatives. The plethodontid family represents a unique opportunity to study auditory evolution independent of vocal communication because it is species rich, widely distributed, and displays high ecological diversity in habitat use. Comparative analysis of auditory variation in species living under different levels of environmental constraint may reveal the selective pressures that induce sensory adaptation. The proposed work will address questions of sensory variation and adaptation within an ecologically-relevant framework and will generate conclusions pertaining to environmental influence on auditory evolution.

 

Madeleine Gunter, William and Mary, Anthropology. “Settlement stability and floodplain dynamism: A geoarchaeology study of ‘persistent places’ in the Virginia Piedmont”, Virginia.

This project combines geological and archaeological methods to examine the long-term settlement histories of Siouan-speaking Native communities in Virginia’s Dan River drainage between AD 800—1600. Invoking Schlanger’s (1992) concept of “persistent places,” locales made meaningful through their occupation and reoccupation through time, this research seeks to understand why Piedmont communities reoccupied floodplain village sites along the Dan and its tributaries—despite environmental and sociopolitical disadvantages (annual flooding, proximity to hostile groups from the North). By extracting and analyzing a series of sediment cores from across the site’s main floodplain, this project seeks to contextualize the site’s various archaeological features–evidence of relatively stable occupation–within the region’s dynamic fluvial history. Though regionally and methodologically focused, this project is significant because it joins a broader conversation about the nature of human/environment interaction that seeks to understand how past humans shaped, and were shaped by, the landscapes on which they lived.

Melanie Jackson, University of Maryland, Center for Environmental Science. “Determining the effect of ammonium on algal community composition and physiology in the Anacostia River in Washington DC”, District of Columbia.

It is well known that that the Anacostia River has poor water quality based on its history of toxins and pathogens; however, nutrient pollution, primarily in the form of nitrogen (N) has been less well recognized. In coastal ecosystems in general, nutrient pollution is known to lead to eutrophication and increased hypoxia and abundance of harmful algal bloom species. Excess N is one of the major pollution problems in the Anacostia River, largely due to sewage effluent and combined sewer overflows from both effluent and storm water runoff. This project aims to assess the sources and fates of N forms in the Anacostia River and their relationship with algal blooms. Anacostia River sampling will be combined with experiments involving enrichments with NH4+ and NO3 to evaluate the impact of N loads and forms on phytoplankton species composition and productivity. Considering the growing number and increasing frequency of harmful algal blooms worldwide, this research has implications for food web structure and productivity of coastal estuaries.

Chrisandra Kufeldt, George Washington University, Human Biology. “Does dental microstructure carry a phylogenetic signal?”, Arizona, Massachusetts, United Kingdom.

Sound hypotheses about phylogenetic relationships are necessary for understanding the comparative context of the evolutionary changes that have occurred within the hominin lineage. This project will combine a new suite of morphological characters derived from dental microstructure to test the efficacy of hard tissue characters for recovering evolutionary relationships among great apes and monkeys whose phylogeny is well established from genetic evidence. The objective of this study is to conduct a comprehensive study of enamel growth in primate samples in order to produce data to use in a phylogenetic analysis. The study sample suite for this project includes previously collected and sectioned thin sections of mandibular molars from great apes and species of both old world and new world monkeys. . Demonstrating the efficacy of these methods with a new suite of characters in a comparative context is critical for future application to the hominin fossil record, this is important considering paleoanthropology remains one of the few fields without reliable phylogenetic hypotheses

 

Joeva Rock, American University, Anthropology. “Sankofa: Utilizing traditional agricultural practice for modern development”, Ghana.

Food and farming are inherently social processes, but changes in agricultural practice in Ghana are changing ecological and cultural landscapes. As a result, Ghanaian farmers are opting out of cash-crop development schemes and instead turning to sustainable subsistence farming that draws on socio-cultural agricultural knowledge. The usefulness of local knowledge is contested. While some argue that it ought to be crucial a component of agricultural development, others disagree over the viability of the use of local knowledge and small-scale farms to meet modern needs. This project explores how Ghanaians define and pursue sustainable, culturally-relevant agricultural practice. Ethnographic research will be conducted in the Ghanaian capital of Accra and based out of the offices of ILK, a Ghanaian agricultural organization. This project employs two core methods: 1) participant observation at ILK to understand how sustainability and cultural values are defined and integrated in to practice, and 2) semi-structured interviews with farmers and with key actors in Ghanaian agricultural policy and programming spheres. By approaching agricultural development beyond production and consumption, and instead establishing food as a cultural cornerstone, this project will aid in designing and maintaining truly sustainable development interventions.