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1.
R SAPRA S K DHAKA V PANWAR R BHATNAGAR K PRAVEEN KUMAR Y SHIBAGAKI M VENKAT RATNAM M TAKAHASHI 《Journal of Earth System Science》2011,120(5):807-823
Relationship of outgoing long-wave radiation (OLR) with convective available potential energy (CAPE) and temperature at the 100-hPa pressure level is examined using daily radiosonde data for a period 1980–2006 over Delhi (28.3°N, 77.1°E) and Kolkata (22.3°N, 88.2°E), and during 1989–2005 over Cochin (10°N, 77°E) and Trivandrum (8.5°N, 77.0°E), India. Correlation coefficient (R xy) between monthly OLR and CAPE shows a significant (~???0.45) anti-correlation at Delhi and Kolkata suggesting low OLR associated with high convective activity during summer (seasonal variation). Though, no significant correlation was found between OLR and CAPE at Cochin and Trivandrum (low latitude region); analysis of OLR and temperature (at 100-hPa) association suggests that low OLR peaks appear corresponding to low temperature at Delhi (R xy~ 0.30) and Kolkata (R xy ~ 0.25) during summer. However, R xy between OLR and temperature becomes opposite as we move towards low latitudes (~8°–10°N) due to strong solar cycle influence. Large scale components mainly ENSO and quasi-biennial oscillaton (QBO) that contributed to the 100-hPa temperature variability were also analyzed, which showed that ENSO variance is larger by a factor of two in comparison to QBO over Indian region. ENSO warm conditions cause warming at 100-hPa over Delhi and Darwin. However, due to strong QBO and solar signals in the equatorial region, ENSO signal seems less effective. QBO, ENSO, and solar cycle contribution in temperature are found location-dependent (latitudinal variability) responding in consonance with shifting in convective activity regime during El Niño, seasonal variability in the tropical easterly jet, and the solar irradiance. 相似文献
2.
Understanding the fundamental issues related with the effect of shear velocity on frictional characteristics at the interface
of rock surfaces is an important issue. In this paper, strain-rate dependence on friction is investigated in relation to sliding
behaviour under normal load. The phenomenon of stick-slip of granite and shaly sandstone with a tribometer at constant rate
of strain under normal loads was observed. 相似文献
3.
One-dimensional unsteady solute transport along unsteady flow through inhomogeneous medium 总被引:1,自引:0,他引:1
SANJAY K YADAV ATUL KUMAR DILIP K JAISWAL NAVEEN KUMAR 《Journal of Earth System Science》2011,120(2):205-213
The one-dimensional linear advection–diffusion equation is solved analytically by using the Laplace integral transform. The
solute transport as well as the flow field is considered to be unsteady, both of independent patterns. The solute dispersion
occurs through an inhomogeneous semi-infinite medium. Hence, velocity is considered to be an increasing function of the space
variable, linearly interpolated in a finite domain in which solute dispersion behaviour is studied. Dispersion is considered
to be proportional to the square of the spatial linear function. Thus, the coefficients of the advection–diffusion equation
are functions of both the independent variables, but the expression for each coefficient is considered in degenerate form.
These coefficients are reduced into constant coefficients with the help of a new space variable, introduced in our earlier
works, and new time variables. The source of the solute is considered to be a stationary uniform point source of pulse type. 相似文献
4.
NAND L SHARMA JAGDISH C KUNIYAL MAHAVIR SINGH PRIYANKA SHARMA KESAR CHAND AJAY KUMAR NEGI MANUM SHARMA HARINDER KUMAR THAKUR 《Journal of Earth System Science》2011,120(2):281-290
The concentration of ultrafine aerosol particles of aitken and nucleation mode having size in the range of 1–20 nm was monitored
with water-based Condensation Particle Counter. The monitoring was carried out from midnight-to-midnight in every alternate
day on a fortnightly basis to represent summer, monsoon and winter (autumn) seasons of 2008 at Mohal (1154 m amsl) and Kothi
(2530 m amsl) in Kullu-Manali area of the northwestern Himalayan region of India. The results indicate that diurnal pattern
has faint bimodal structure with two peaks, one in morning and the other in evening at both the sites but it is not as distinct
as found in plains. There is rather a constant particle density pattern of large magnitude consistent with vehicular movement
from morning till evening. The monthly 24 h average particle density gradually picks up from January, increases rapidly in
summer months and then decreases in monsoon season at Mohal but at Kothi it keeps on rising from April to October with a slight
more increase in September. The particle density is more in summer than in monsoon season at Mohal, a trend opposite to plains.
It may be due to the development of warm thermal layer on valley floor while a cold layer develops along snowy hilltops in
winter leading to convection of fine particle up the slopes of valley during daytime. At Kothi, the trend is same as it is
in continental plains but opposite to Mohal. The relatively more value of particle density in September and October at both
the sites may be due to month long International Kullu Dussehra fair in the valley. The vehicular survey conducted agrees
well with entire study period averaged diurnal variations and monthly 24 h averaged value of fine particle density. The average
value of ultrafine particle density at each hour of a day for entire study period is 20369 ± 1230 Ncm − 3 and 14389 ± 1464 Ncm − 3 at Mohal and Kothi sites, respectively. The comparison with earlier results shows a significant increase indicating impact
of vehicular onslaught on pure air of this hilly region. 相似文献
5.
C SUDHAKAR REDDY V V L PADMA ALEKHYA K R L SARANYA K ATHIRA C S JHA P G DIWAKAR V K DADHWAL 《Journal of Earth System Science》2017,126(1):11
Carbon emissions released from forest fires have been identified as an environmental issue in the context of global warming. This study provides data on spatial and temporal patterns of fire incidences, burnt area and carbon emissions covering natural vegetation types (forest, scrub and grassland) and Protected Areas of India. The total area affected by fire in the forest, scrub and grasslands have been estimated as 48765.45, 6540.97 and 1821.33 km 2, respectively, in 2014 using Resourcesat-2 AWiFS data. The total CO 2 emissions from fires of these vegetation types in India were estimated to be 98.11 Tg during 2014. The highest emissions were caused by dry deciduous forests, followed by moist deciduous forests. The fire season typically occurs in February, March, April and May in different parts of India. Monthly CO 2 emissions from fires for different vegetation types have been calculated for February, March, April and May and estimated as 2.26, 33.53, 32.15 and 30.17 Tg, respectively. Protected Areas represent 11.46% of the total natural vegetation cover of India. Analysis of fire occurrences over a 10-year period with two types of sensor data, i.e., AWiFS and MODIS, have found fires in 281 (out of 614) Protected Areas of India. About 16.78 Tg of CO 2 emissions were estimated in Protected Areas in 2014. The natural vegetation types of Protected Areas have contributed for burnt area of 17.3% and CO 2 emissions of 17.1% as compared to total natural vegetation burnt area and emissions in India in 2014. 9.4% of the total vegetation in the Protected Areas was burnt in 2014. Our results suggest that Protected Areas have to be considered for strict fire management as an effective strategy for mitigating climate change and biodiversity conservation. 相似文献
6.
Electrical resistivity method is a versatile and economical technique for groundwater prospecting in different geological settings due to wide spectrum of resistivity compared to other geophysical parameters. Exploration and exploitation of groundwater, a vital and precious resource, is a challenging task in hard rock, which exhibits inherent heterogeneity. In the present study, two-dimensional Electrical Resistivity Tomography (2D-ERT) technique using two different arrays, viz., pole–dipole and pole–pole, were deployed to look into high signal strength data in a tectonically disturbed hard rock ridge region for groundwater. Four selected sites were investigated. 2D subsurface resistivity tomography data were collected using Syscal Pro Switch-10 channel system and covered a 2 km long profile in a tough terrain. The hydrogeological interpretation based on resistivity models reveal the water horizons trap within the clayey sand and weathered/fractured quartzite formations. Aquifer resistivity lies between ~3–35 and 100–200 Ωm. The results of the resistivity models decipher potential aquifer lying between 40 and 88 m depth, nevertheless, it corroborates with the static water level measurements in the area of study. The advantage of using pole–pole in conjunction with the pole–dipole array is well appreciated and proved worth which gives clear insight of the aquifer extent, variability and their dimension from shallow to deeper strata from the hydrogeological perspective in the present geological context. 相似文献
7.
8.
E.K.KRISHNA KUMAR S.ABHILASH SANKAR SYAM P.VIJAYKUMAR K.R.SANTOSH A.V.SREENATH 《大气科学进展》2023,40(4):697-710
The inverse relationship between the warm phase of the El Ni?o Southern Oscillation(ENSO) and the Indian Summer Monsoon Rainfall(ISMR) is well established. Yet, some El Ni?o events that occur in the early months of the year(boreal spring) transform into a neutral phase before the start of summer, whereas others begin in the boreal summer and persist in a positive phase throughout the summer monsoon season. This study investigates the distinct influences of an exhausted spring El Ni?o(springtime)... 相似文献
9.
S K PAL JITENDRA VAISH SAHADEV KUMAR ABHAY KUMAR BHARTI 《Journal of Earth System Science》2016,125(1):165-178
The present study deals with the coal fire mapping of East Basuria Colliery, Jharia coalfield, India, using the magnetic method. It is based on the fact that rise in temperature would result significant changes in magnetic susceptibility and thermo-remanent magnetization (TRM) of the overlying rocks. Magnetism increases slowly with the rise of temperature until the Curie temperature. Generally, rock/ overburden loses magnetization and becomes paramagnetic due to heating to Curie temperature, which results with significant reduction in magnetic susceptibility. However, magnetism increases significantly after cooling below the Curie temperature. Several data processing methods such as diurnal correction, reduction to pole (RTP), first and second vertical derivatives have been used for analysis of magnetic data and their interpretation. It is observed that the total magnetic field intensity anomaly of the area varies approximately from 44850 to 47460 nT and the residual magnetic anomaly varies approximately from ?1323 to 1253 nT. The range of the magnetic anomaly after RTP is approximately 1050–1450 nT. About 20 low magnetic anomaly zones have been identified associated with active coal fire regions and 11 high magnetic anomaly zones have been identified associated with non-coal fire regions using vertical derivative techniques. 相似文献
10.