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111.
Controversy exists on the utility of the nematode-copepod ratio as a method for assessing the effects of pollution on benthic communities. In a test of this ratio along a known gradient of organic enrichment in Oslofjord, the index showed the same trends as a previously undertaken macrofaunal survey. Copepod numbers decreased and nematode numbers increased along the gradient of increasing organic enrichment giving rise to changes in the ratio. Grain-size parameters showed no correlation with the ratio. Copepod numbers, however, showed a significant negative correlation with oxygen concentration 1 m above the sediment. The nematode-copepod ratio is suggested as being an acceptable addition to a suite of techniques for the assessment of organic enrichment effects on benthic communities, but does require special expertise. A decrease in the numbers of meiofaunal taxa along the organic enrichment gradent was found and is similar to the gradient in the nematode-copepod ratio. The fact that all indices show responses in Oslofjord may merely reflect the strong organic enrichment gradient that exists; it should not necessarily be construed that such results will be found everywhere. 相似文献
112.
Mohamed S. Elhebiry Ibrahim Abu El-Leil Alan E. Kehew Mahmoud H. Bekiet Islam Abdel Shahid 《International Geology Review》2020,62(9):1187-1204
ABSTRACT Exhumed Paleozoic glacial deposits and landforms of the North Gondwana are reported here for the first time from the South Eastern Desert (SED) of Egypt. Using field observations and remote sensing datasets (Advanced Land Observing Satellite [ALOS], Phased Array L-band Synthetic Aperture Radar [PALSAR] radar, multispectral Landsat TM datasets, and digital elevation models [DEMs]), we mapped the distribution of Paleozoic glacial features (i.e. deposits and landforms) in the SED. Two main glaciogenic facies were identified in three locations in the SED: (1) massive, poorly sorted, matrix supported, boulder-rich diamictites in Wadi El-Naam and Korbiai, and (2) moderately-sorted, occasionally bedded outwash deposits in Betan area. Inspection of radar, DEMs, and Landsat Operational Land Imager (OLI) images revealed previously unrecognized ENE-WSW trending glacial megalineations (MLs) over the peneplained Neoproterozoic basement rocks in the central sections of the SED, whose trends align along their projected extension with those of glacial features (tunnel valleys and striation trends) reported from Saudi Arabia. The glaciogenic features in the SED are believed to be largely eroded during the uplift associated with the Red Sea opening, except for those preserved as basal units beneath the Nubia Sandstone Formation or as remnant isolated deposits within paleo-depressions within the basement complex. The apparent spatial correlation of the SED glacial features with well-defined Late Ordovician deposits in North Africa and in Saudi Arabia, and the reported thermochronometric analyses and fossil records are consistent with a Late Ordovician age for the SED glaciogenic features and support models that call on the continuation of the Late Ordovician (Hirnantian) ice sheet from the Sahara into Arabia through the SED of Egypt. 相似文献
113.
Muhammad BASHARAT Joachim ROHN Mirza Shahid BAIG Muhammad Rustam KHAN Markus SCHLEIER 《山地科学学报》2014,11(1):19-30
The SPOT image analysis in Muzaffarabad Azad Kashmir,northwest Himalayas,Pakistan reveals that the Kashmir earthquake 2005 triggered a number of coseismic mass movements along the hanging wall block of the Muzaffarabad Fault.The Neelidandi and Langarpura rock falls have been identified as two major reactivated mass movements with an estimated volume of 3.1 × 106m3and 5.76 × 106m3,respectively.The Neelidandi and Langarpura mass movements were initiated during earthquake in the direction of northwest-southeast extension and northeastsouthwest directed thrusting,respectively.The Neelidandi rock fall occurred in sheared cherty dolomites and limestones of the Cambrian Muzaffarabad Formation,whereas the Langarpura rock fall occurred in alternating clays,shales,claystones,siltstones and sandstones of the Miocene Murree Formation.These rock units along the fault are highly fractured and jointed.The geotechnical maps and geological longitudinal profiles show the relationship between the geometrical characteristics and mechanism of these mass movements.Their characteristics were analyzed according to the role of topographic,seismic,geological and tectonic factors.The steep topography,sheared rocks,lithology,coseismic uplift and strong ground shaking of the hanging wall block along Muzaffarabad Fault facilitated the gravity collapse of these mass movements. 相似文献