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371.
L C López-Teloxa A Cruz-Montalvo J V Tamaríz-Flores R Pérez-Avilés E Torres R Castelán-Vega 《Journal of Earth System Science》2017,126(7):95
The soil organic carbon (SOC) was determined in 40 sites at two depths (0–10 and 10–20 cm) for different uses of soil during one year (February 2014–February 2015). The total SOC stored in the analysed soil from the Ramsar site was \(9{,}67 \times 10^{5}\) t, from which 40% was stored in induced pasture, followed by the red oak forest with shrubbery secondary vegetation, rain-fed agriculture and human settlements (24%, 23%, and 13%, respectively); the last was evaluated to determine how the proximity of the city impacts the SOC. The SOC concentrations present significant differences with respect to soil depth (\(p=0.0\)) and land use (\(p=0.0\)). The temporal distribution maps showed that SOC did not present significant variations in the short-term. A relation between SOC and bulk density was found (\(r = -0.654\), \(p=0.00\)), with respect to other physicochemical properties. Moreover, a significant relation between SOC and stored total nitrogen (\(r = 0.585\); \(p = 0.00\)) was found. This work represents the first study that analyses the current condition of the soils in the Ramsar site ‘Presa Manuel Ávila Camacho’. 相似文献
372.
373.
Benjamin R. Cohen 《地理信息系统科学与遥感》2013,50(1):76-81
A paper presented at a symposium on “Communication and Society” (Inter-university Center for Postgraduate Studies, University of Dubrovnik, May 13-24, 1985) explores means for extending the use and effectiveness of maps in everyday life. Primary emphasis is on improving overall cartographic communication and devising more effective methods for using maps to augment other communications media, especially newspapers and television. Submitted by the author to the Editor-in-Chief for publication. 相似文献
374.
The results of a simultaneous solution for the orbital elements of Moon and planets are given and their derivation is discussed. A modern Cowell integrator is used for orbit computations, and least-squares fits are made to some 40000 optical observations taken since 1913. The model includes relativistic terms, the leading zonal harmonics of Earth and Moon, the precession of the lunar equator, and the tidal couple between Earth and Moon. The tidal term in the Moon's mean longitude is found to be –19±4 per century squared. The solution also yields an extrapolation of the atomic time scale back to 1912.5. At that time, the difference between atomic and ephemeris time is about 6±2 s. Lunar declinations observed by the Washington transit circles, after receiving limb corrections and thus with respect to the center of Watts' reference sphere, are smaller than computed values by 0.33±0.01. It is found that solar oblateness cannot quite be determined with optical data covering about 50 yr, butJ
2 is unlikely to be much larger than 10–5. The advance of Mercury's perihelion is verified to within our resolution of 2 per century to match that predicted by Einstein.The solution presented here is believed to be the only simultaneous improvement of the orbits of Moon and planets. This simultaneity is found to be an essential feature in separating the Moon's mean motion, the lunar tidal deceleration, and the corrections to the Earth rotation rate. It is now possible to refer all astronomical events of the past 60 yr to a time with uniform rate, namely the atomic clock system. Considering the long baseline, this model should facilitate the prediction of fast variables, such as the lunar longitude, with considerably increased confidence. The planetary orbital elements compete with efforts of similar scope and accuracy at the Massachusetts Institute of Technology and the Jet Propulsion Laboratory. 相似文献