CAST OFF: MARITIME LABOR IN AMERICA FROM 1935 TO 1955

Many studies have observed the precipitous decline in American shipping following the Second World War. Most focus on changes in maritime policy and the upsurge of flags of convenience. Yet this interpretation relegates mariners to a footnote. This thesis argues that America abandoned its seamen years before it abandoned its merchant marine, and that the labor story is an integral and largely overlooked dimension of the industry’s broader decline. It explores how the status and makeup of American seamen underwent monumental shifts from 1935 to 1955. Increased nationalization, improved conditions, and a patriotic cause boosted the standing of the industry, but federal and union intervention also changed the composition of the workforce and even eroded seamen’s status. These greater controls on mariners negatively affected the industry and this work contends that labor played a role in the transformation, and even decline, of the overall American Merchant Marine.

PHYTOPLANKTON AND NUTRIENT DYNAMICS WITH A FOCUS ON NITROGEN FORM IN THE ANACOSTIA RIVER, IN WASHINGTON, D.C. AND WEST LAKE, IN HANGZHOU, CHINA

Nutrient loading has been linked with severe water quality impairment, ranging from hypoxia to increased frequency of harmful algal blooms (HABs), loss of fisheries, and changes in biodiversity. Waters around the globe are experiencing deleterious effects of eutrophication; however, the relative amount of nitrogen (N) and phosphorus (P) reaching these waters is not changing proportionately, with high N loads increasingly enriched in chemically-reduced N forms. Research involving two urban freshwater and nutrient enriched systems, the Anacostia River, USA, a tributary of the Potomac River feeding into the Chesapeake Bay, and West Lake, Hangzhou, Zhejiang Province, China, was conducted to assess the response of phytoplankton communities to changing N-form and N/P-ratios. Field observations involving the characterization of ambient phytoplankton communities and N-forms, as well as experimental (nutrient enrichment) manipulations were used to understand shifts in phytoplankton community composition with increasing NH4+ loads. In both locations, a >2-fold increase in ambient NH4+:NO3- ratios was followed by a shift in the phytoplankton community, with diatoms giving way to chlorophytes and cyanobacteria. Enrichment experiments mirrored this, in that samples enriched with NH4+ lead to increased abundance of chlorophytes and cyanobacteria. This work shows that in both of these systems experiencing nutrient enrichment that NH4+ supports communities dominated by more chlorophytes and cyanobacteria than other phytoplankton groups.