Extent and Causes of Chesapeake Bay Warming

Coastal environments such as the Chesapeake Bay have long been impacted by eutrophication stressors resulting from human activities, and these impacts are now being compounded by global warming trends. However, there are few studies documenting long-term estuarine temperature change and the relative contributions of rivers, the atmosphere, and the ocean. In this study, Chesapeake Bay warming, since 1985, is quantified using a combination of cruise observations and model outputs, and the relative contributions to that warming are estimated via numerical sensitivity experiments with a watershed–estuarine modeling system. Throughout the Bay’s main stem, similar warming rates are found at the surface and bottom between the late 1980s and late 2010s (0.02 +/- 0.02C/year, mean +/- 1 standard error), with elevated summer rates (0.04 +/- 0.01C/year) and lower rates of winter warming (0.01 +/- 0.01C/year). Most (~85%) of this estuarine warming is driven by atmospheric effects. The secondary influence of ocean warming increases with proximity to the Bay mouth, where it accounts for more than half of summer warming in bottom waters. Sea level rise has slightly reduced summer warming, and the influence of riverine warming has been limited to the heads of tidal tributaries. Future rates of warming in Chesapeake Bay will depend not only on global atmospheric trends, but also on regional circulation patterns in mid-Atlantic waters, which are currently warming faster than the atmosphere. Supporting model data available at: https://doi.org/10.25773/c774-a36

Doses de fósforo e crescimento radicular de cultivares de arroz de terras altas Phosphorus doses and root growth of upland rice

O estudo de crescimento radicular de arroz de terras altas em função da disponibilidade de fósforo é, praticamente, inexistente. O objetivo deste trabalho foi avaliar o crescimento de diversas cultivares de arroz de terras altas em diferentes condições de disponibilidade de fósforo. O experimento foi desenvolvido em casa de vegetação, em delineamento inteiramente casualizado, em esquema fatorial 4 x 4, com quatro doses de P (0, 50, 100 e 200 mg dm-3) e quatro cultivares: Maravilha (grupo moderno), IAC 201, IAC 202 e Carajás (grupo intermediário). A cultivar Carajás possui sistema radicular que melhor se desenvolveu sob baixa disponibilidade de P. Sob baixa disponibilidade de P as cultivares IAC 201 e IAC 202 priorizaram o desenvolvimento do sistema radicular em relação a parte aérea. A cultivar Maravilha requer níveis elevados de fósforo para atingir o máximo desenvolvimento. Sob baixa disponibilidade de fósforo as cultivares de arroz diminuíram o diâmetro radicular.<br>Very little is known of phosphorus availability for upland rice. The objective of this work was to evaluate root growth of upland rice cultivars in different conditions of phosphorus availability. The experiment was carried out in greenhouse, in a completely randomized design, as a 4 x 4 factorial, with four doses of P (0, 50, 100 and 200 mg dm-3) and four cultivars: Maravilha (modern group), IAC 201, IAC 202 and Carajás (middle group). The Carajás root system grew more in low availability of P than other cultivars. In low availability of P the cultivars IAC 201 and IAC 202 priorized root system growth to aerial growth . The Maravilha cultivar needs high Plevels to reach maximum growth. In low availability of P the upland rice cultivars decreased root diameter