Fish Assemblage Response to Environmental Gradients and Altered Dendritic Connectivity in the Red River Basin, Central Louisiana

Reuter, Catherine Nell

15 December 2015

Louisianas small streams provide critical habitat for diverse ecologically and economically important fish species. However, the relationship between these fish assemblages and habitat variables remains poorly understood. The role of anthropogenic alteration of dendritic stream connectivity is of specific interest and has been shown to significantly influence stream ecology. This study explored the interaction among watershed characteristics, stream connectivity, stream physico-chemistry, and fish assemblages in little-studied Red River basin of central Louisiana as well as how reservoir littoral zones compared to streams, both in terms of fish assemblage and habitat. Fish and habitat were sampled in 21 headwater streams, half of which flowed directly into a reservoir, and in four reservoir littoral zone sites. Multivariate analyses indicated that level of dendritic connectivity did not explain a significant amount variation in stream fish assemblages. Fish assemblage composition and its relationship to common environmental gradients were similar in in all streams regardless of connectivity. Additionally, the assemblage and habitat of the reservoir littoral zone was comparable to that found in streams indicating that reservoirs were not serving as deleterious barriers to stream fish assemblages. However, individual species modeling revealed greater abundance of three species in streams with unaltered connectivity. These results do not parallel trends observed in other examinations of altered dendritic connectivity, however, they are concurrent with studies of coastal plain fishes response to other disturbances. Understanding the magnitude and structure of response to disturbance is critical for preserving aquatic ecosystems and focusing conservation efforts. Even systems such as the Red River Basin, which evidence strong resilience to human disturbance, warrant closer inspection before heedless system alteration continues.

Renewable Natural Resources

Analyzing Site Suitability for Baldcypress (Taxodium distichum) Regeneration Along a Hydrologic Gradient in South Louisiana Swamps

Rutherford, Marcus

19 August 2015

The future of Louisianas coastal cypress-tupelo forests is threatened by prolonged or permanent flooding during the growing season. Permanent inundation prevents baldcypress seedlings from becoming established. The upper limit of submergence with respect to adequate planted baldcypress seedling performance has not been effectively tested under actual field conditions. Similarly, an effective method for determining a sites regeneration potential based on present vegetation attributes has not been developed. To test first-year performance of planted baldcypress seedlings under varying levels of submergence, I planted 900 of both 1-0 and 2-0 age-class bare-root seedlings across 12 different sites covering a range of hydrologic conditions and monitored their performance over the 2014 growing season. Water levels were continuously monitored for each individual seedling, and survival and height growth were documented. Due to their taller starting heights, 2-0 seedlings were submerged, on average, less often (1.4 days) than 1-0 seedlings (34.8 days). Survival was high across sites for both age classes (79% for 1-0 and 89% for 2-0). Survival of 1-0 seedlings decreased to only 9% following more than 90 cumulative days of submergence. Height growth across sites was greater for 1-0 seedlings (0.29 m) than 2-0 seedlings (0.13 m). Height growth of 1-0 seedlings decreased significantly following more than 30 cumulative days of submergence. To relate present vegetation attributes to baldcypress regeneration potential, I sampled the vegetation on all 12 sites in addition to using vegetation and hydrology data from five sites monitored by the Coastwide Reference Monitoring System (CRMS). Sites were separated into three categories based on how their hydrologic regime related to baldcypress regeneration potential. Sites with potential for natural regeneration were indicated by a species-diverse overstory and a high midstory stem density. Sites with only artificial regeneration potential were indicated by an overstory layer consisting almost exclusively of cypress-tupelo and a dense midstory layer with a high percentage of stems rooted on elevated structures. Sites with neither natural nor artificial regeneration potential were indicated by an overstory layer consisting almost exclusively of cypress-tupelo and a sparse midstory layer with a high percentage of stems rooted on elevated structures.

Renewable Natural Resources

If You Build It, What Will Come? Assessing the Avian Response to Wetland Restoration in the Mississippi River Birds Foot Delta Through Multiple Measures of Density and Biodiversity

Sullivan, Lauren Rae

03 August 2015

Multiple wetland restoration and enhancement techniques are used in Louisiana to combat land loss and provide habitat for waterbirds. We investigated the avian response to three wetland restoration techniques in the Lower Mississippi Birds Foot Delta to determine if the different habitat types resulted in differences in the value of edge habitat. Species richness, guild richness, total bird density, bird density by foraging guild, and bird abundance relative to distance from the marsh edge was compared among (i) crevasse splays, a type of sediment diversion which allow the river to build new wetlands, (ii), beneficial use of dredged material marshes, where heavy equipment to create new wetlands from sediments dredged from navigation channels, (iii) marsh terraces, where lighter equipment is used to create strips of edge habitat from sediments dredged from the restoration site, (iv) old edge marshes, representing pre-restoration conditions at degrading marshes, and (v) open water sites. Seasonal bird counts and vegetation surveys were conducted from March 2013 to October 2014 at plots within the Pass a Loutre State Wildlife Management Area and Delta National Wildlife Refuge in Plaquemines Parish, Louisiana, USA. We found bird abundance and diversity differs among the five habitat types during some times of the year, with habitat type and season often having a significant affect on the composition of the avian community. There was a significant relationship between habitat types and environmental factors (p=0.002), and a significant relationship between foraging guilds and environmental factors (p=0.002). Habitat type functions as a useful predictor of guild richness, but alone is not a perfect substitute for environmental variables when identifying the source of all variation in avian community composition. All habitat types studied provided habitat for birds, but were not utilized by all species or foraging guilds equally. We found that old edge marshes supported similar species richness as restored marshes during summer and winter (p<0.05) and open water supported the highest bird density in winter and spring (p<0.05). Any marsh habitat type, however, can be expected to support greater guild and species richness than open water areas during all seasons, but not greater bird density.

Renewable Natural Resources

Desert tortoise conservation genetics

Edwards, Taylor

January 2003

Managing for the long-term survival of a species requires an understanding of its population genetics. The desert tortoise, Gopherus agassizii, inhabits the Mojave and Sonoran deserts of North America. Desert tortoises face many threats to their continued survival, including habitat loss and fragmentation. I used mitochondrial and microsatellite DNA markers to examine genetic structure within and among populations of desert tortoises. I found that both the Mojave and Sonoran populations of desert tortoise exhibit similar patterns of population genetic structure. Gene flow among localities within each region is part of the evolutionary history of the desert tortoise and dispersal events probably play an important role in the long-term maintenance of populations. Movement barriers caused by anthropogenic landscape changes have the potential to effect desert tortoise population viability. Understanding the historical connectivity between and within the Mojave and Sonoran populations of desert tortoises will help facilitate the conservation of this species.

Renewable Natural Resources

Effective conservation communications as derived from a national survey and related research

Risch, Robert Forest, 1942-

January 1971

No description available.

Conservation of natural resources.

Dot AGWA: A Watershed Assessment Tool in Natural Resources Information Systems

Cate Jr, Averill

January 2008

The practice of linking Geographic Information Systems (GIS) software and natural resource models has greatly increased in the recent past. Cheaper and more powerful computing resources have allowed us to build systems that minimize the effort and labor involved in parameterizing simulation models. However, by using computerized means to minimize the effort needed to facilitate model parameterization we have increased the complexity in these links between the two components. We have also increased the amount of knowledge required to build the link and have increased the need to understand the consequences of building the links between two systems. The practice of linking these two components creates new issues that affect both the GIS analyst and the researcher. The goal of this research project has been to develop an application linking GIS-based geo-processing tools developed in the Automated Geospatial Watershed Assessment (AGWA) tool to an internet-based map interface. The application allows a user to develop a management scenario by delineating a watershed based on one or more outlet points. The application uses the delineation and other input data sets to develop input parameter files for a hydrologic model, which then runs and produces output for the user. The development of the application produced many interesting issues, but the one identified as most important in terms of this dissertation research was an issue related to using current software development tools such as the Universal Modeling Language (UML) and software design patterns as a way to communicate about system requirements and system functions between programmers and project stakeholders. This research will examine how these software development tools were used to develop DotAGWA, the consequences of using the tools and an analysis of why these tools may be an important component in developing natural resource projects that rely heavily on GIS tools.

GIS Natural Resources

Enhancement of Gulf Killifish, Fundulus grandis, Fitness and Reproduction

Patterson, Joshua Thomas

01 April 2014

Gulf killifish, Fundulus grandis, shows promise for commercial development as a marine baitfish species. Significant markets for F. grandis already exist throughout the Gulf Coast, with the vast majority of supply coming from wild-harvests, which can be hampered by seasonal availability and inconsistent fish health and size. The genus Fundulus also represents an important group of model vertebrates for biological study. A recent review paper described this genus as the premier teleost model for environmental biology. New information generated as a result of the work contained in this dissertation may be more broadly applicable to sister species of F. grandis, enhancing the primary goal of improving reproductive output and fitness in cultured individuals of this species. Results of this dissertation include optimization of culture salinity, female broodfish body size, and dietary lipid composition. Optimal salinity for culture of juvenile F. grandis was 12.0, with growth incrementally increasing between 0.5, 5.0, 8.0, and 12.0. Survival was negatively affected at 0.5. Optimal body size for female broodfish was 12-13 g. Minimum size recommended for broodfish was 7 g and per-unit-mass fecundity begins to level off in females greater than 13 g. Fecundity of F. grandis was less sensitive to manipulations of dietary lipid content than many other fishes. No difference in fecundity was found among fish fed isonitrogenous diets ranging in lipid content from 4.0 to 13.8%. Excess lipid was mostly stored in the intraperitoneal cavity, rather than being partitioned for reproduction. Dietary lipid composition produced very little effect on overall fecundity in F. grandis, despite experimental diets with very different fatty acid (FA) composition. Differences did occur in subsequent larvae at extreme physiological conditions, but these variations were unlikely to have any effect on survival in culture or natural settings. Examinations of FA dynamics across time revealed that F. grandis likely utilizes a combination of mobilization from somatic reserves and de novo biosynthesis of long chain polyunsaturated FAs to compensate for dietary FA deficiency. Overall, the characteristic physiological plasticity of F. grandis also applied to lipid dynamics.

Renewable Natural Resources

Three essays on the management of nonrenewable resources

Chapple, Clive

11 1900

This thesis comprises three essays on the management of nonrenewable resources. Pollution is often associated with the use of nonrenewable resources. Indeed, many of today's most pressing environmental problems are caused by these types of activities. Despite the connection between nonrenewable resource use and environmental degradation, the two issues have been, for the most part, analysed separately by economists. The first paper develops a framework to analyse the effects of a pure-flow externality on the competitive allocation of nonrenewable resources. For commonly- used specifications of consumer preferences, the competitive allocation is found to be fully optimal for pure-flow externalities exhibiting decreasing marginal disutility. Hence, the paper shows that the presence of a negative externality associated with the use or extraction of a nonrenewable resource need not result in inefficiency. The US 1990 Oil Pollution Act is the most significant attempt yet made by a nation to deal with pollution of its territorial waters. It significantly altered the rights and obli gations of tanker owners operating in US waters, effectively introducing unlimited liability and significantly expanding the definition of spill damages. The second paper analyses the effect of the Act on major pelagic oil spills occurring world wide. The hypothesis that the Act had a negligible effect on the number of spills occurring in North America's coastal waters is tested empirically. The results indicate that the Act significantly reduced the number of spills occurring in North American coastal waters and has had no discernible effect on spill frequencies elsewhere. There is a keen and growing interest in the properties of vertical relationships governing the pricing and transfer of intermediate goods. The third paper examines an unusual and commercially-important vertical relationship — the price participation system —which is used extensively in the zinc industry. The paper explores the conjecture that significant demand uncertainty and risk aversion on the part of zinc smelters might explain why the industry uses the price participation system rather than a more conventional contractual arrangement. The results indicate that these factors do go part way toward explaining why the industry uses the price participation system.

Preparation and Characterization of Cellulose Nanoparticles and their Application in Biopolymeric Nanocomposites

Han, Jingquan

08 November 2013

Regenerated cellulose nanoparticles (RCNs) including both elongated fiber and spherical structures were prepared from microcrystalline cellulose (MCC) and cotton using 1-butyl-3-methylimidazolium chloride followed by high-pressure homogenization. The RCN has a two-step pyrolysis, different from raw MCC and cotton that had a one-step process. The crystalline structure of RCNs was cellulose II in contrast to the cellulose I form of the starting materials. Also, the RCNs have decreased crystallinity and crystallite size. The elongated RCNs produced from cotton and MCC had average lengths of 123 ± 34 and 112 ± 42 nm, and mean widths of 12 ± 5 and 12 ± 3 nm, respectively. The average diameter of spherical RCNs from MCC was 118 ± 32 nm. Cellulose nanocrystals and cellulose nanofibers with I and II crystalline allomorphs (designated as CNC I, CNC II, CNF I, and CNF II) were isolated from bleached wood fibers by alkaline pretreatment and acid hydrolysis. The effects of concentration, particle size, surface charge, and crystal structure on the lyophilization-induced self-assembly of cellulose particles in aqueous suspensions were studied. Within the concentration range of 0.5 to 1.0 wt %, cellulose particles self-organized into lamellar structured foam composed of aligned membrane layers with widths between 0.5 and 3 ì m. At 0.05 wt %, CNC I, CNF I, CNC II, and CNF II self-assembled into oriented ultrafine fibers with mean diameters of 0.57, 1.02, 1.50, and 1.00 ì m, respectively. Cellulose nanoparticle (CNP) reinforced Polyvinyl alcohol-borax (PB) hydrogels were prepared through a facile approach in an aqueous medium. The obtained stiff, high-water-capacity (~96%), low-density (~1.1g/cm3), translucence hydrogels exhibited birefringence textures. These free-standing, high elasticity and mouldable hydrogels also exhibited self-recovery under continuous step strain and thermo-reversibility under temperature sweep. The rheological tests and compression measurements confirmed the incorporation of well-dispersed CNPs to PB system significantly enhanced the compressive strength, viscoelasticity and stiffness of the hydrogels. Highly-crystalline CNPs not only tangled with PVA chains though numerous hydrogen bonds, but formed chemically crosslinked complexes with borax ions as well, thus acting as multifunctional crosslinking agents and nanofillers to physically and chemically bridge the 3D network hydrogels.

Renewable Natural Resources

Recovery of Understory Bird Movement in Post-Pasture Amazonia

Powell, Luke L.

12 November 2013

I sought to understand how forest fragmentation and secondary growth affect avian movement at the Biological Dynamics of Forest Fragments Project (BDFFP) near Manaus, Brazil. When deforested areas are abandoned, secondary forests regenerate, allowing rainforest animals to gradually recovery their ability to use formerly inhospitable habitat. My colleagues and I captured 2773 understory birds of ten foraging guilds along the edges of primary forest fragments and variable secondary forest. Age of secondary forest along edges was the most important variable driving capture rates on primary/secondary edges. Mean recovery to pre-isolation capture rates was 26 years after abandonment, but terrestrial insectivores took far longer to recover than other guilds, ¡Ý 54 years. I radio-tracked 73 understory insectivores of three species in variable landscapes to uncover patterns in avian movement in secondary growth¡ªspecifically evaluating space use (home range, movement rate, etc.), edge responses and habitat transition probabilities. Space use varied widely as secondary growth recovered, with species showing vastly different spatiotemporal strategies in returning to forest. Woodcreepers Glyphorynchus spirurus and Xiphorhynchus pardalotus recovered to primary-forest-level edge responses and transition probabilities after 11¨C15 and 15¨C20 years, respectively. En route to recovery, both woodcreepers increased home range sizes and movement rates in young secondary forests. Formicarius colma, a common terrestrial insectivore, had a far more rigid strategy, avoiding young secondary forest, then using space in older secondary forest similarly to the way it used space in primary forest. With bird ages pooled, F. colma showed a return to no edge response about 28¨C30 years after land abandonment, with some evidence for an edge response by young birds even 27¨C31 years post-abandonment. Further, through habitat transition probabilities, I showed that F. colma preferred primary forest over 27¨C31 year-old secondary forest (the oldest at the BDFFP), indicating that even after 27¨C31 years, secondary forest had not recovered for movements of this terrestrial insectivore. By quantifying how land-use patterns affect avian movement, connectivity, and community dynamics, we will be generating the understanding necessary to manage heterogeneous landscapes for biodiversity conservation in the 21st century and beyond.

Renewable Natural Resources