Determination of halides in drinking/waste water by coulometry

Determination of halides in drinking/waste water by coulometr

Standard Heterosis for Grain Yield and its Attributing Traits in Early Maturing Maize Hybrids

The present study was conducted at the research farm of Dryland Agriculture Research Station, SKUAST-Kashmir during the kharif of 2019. Range of heterosis was calculated over standard check. The most desirable cross combinations viz., KDM-440 x KDM-914A (-5.879), KDM-440 x V-335 (-4.468), KDM-930 x V-351(-4.165), KDM-927A x V-335 (-3.986), CML-470 x KDM-914A (-3.808) for days to maturity, KDM-347 x V-351 (4.967) CML-470 x KDM-914A (4.610), CML-474 × V-351(-4.396), KDM-927 A x V-351 (-3.110), KDM-930 x V 335 (2.896) for number of kernel rows per cob, KDM-347 x V-351(-7.544), KDM-440 x V-351 (6.438), KDM-916A x KDM-914 A(6.117), CML-470 × V-351(5.992), CML-474 x V-335 (5.274) for number of kernels per row, KDM-340 x V-351 (3.966), KDM340 x KDM-914A (3.150), KDM-930 x V-351(3.165), KDM-440 x KDM-914 (3.556), KDM-347 x V-351(3.324) for 100-grain weight, KDM-347 x V351 (34.197), KDM-440 x V335 (28.933), CML470 x KDM-914A (29.380), KDM-895 x KDM914A (25.383), KDM927A x KDM-914A (19.549) for grain yield per plant were observed in the present study. The range of heterosis  over  standard check for days to maturity from -3.796 (CML-425 × KDM-914A) to (2.414) CML-474 × KDM-914A. The extent of heterosis for number of kernel rows per ear over standard check ranged from CML-470 x V-335(28.576) to KDM-916A × V -335(-2.143), for quantity of kernels per row maximum well known heterosis ranged from CML-470 × V-351 (19.079) to KDM-347 × V-351 (-15.132), for 100- grain weight, heterosis ranged from 22.3% for CML-470 x KDM-914 A  to -3.5% for KDM-916A × V-335. For grain yield per plant, heterosis ranged from 61.9% for CML-470 x K DM-914 A to 9.3% for KDM916A x V-335. Standard  heterosis for crosses CML -470 × KDM-914 A, CML-474 × V-351, KDM-440 × V-335 should be tested for multilocation to make valid conclusion related to their use in commercial maize cultivation

A review on the natural gas potential of Pakistan for the transition to a low-carbon future

Natural gas is the world’s fastest growing and widely used fossil fuel which can be targeted for transitioning to a low-carbon future. Pakistan was ranked at seventh position among the utmost harmfully affected countries by climate change. It is, therefore, important to develop an effective energy policy toward the reduction of greenhouse gases in the country. This study evaluates the Pakistan’s natural gas industry development by reviewing reserves, production, consumption, infrastructures, and natural gas agreements in place. The total proven natural gas reserve of Pakistan is estimated to be 0.5 Tcm by the end of 2016. There are many active fields in Pakistan among which Sui gas reservoir is the largest. Currently, Pakistan’s natural gas industry is well matured with average size reserves, production capacity, and advanced and organized infrastructure for transmission and distribution network. Therefore, natural gas can be used to feed different sectors of the country, to decrease the financial burden of importing oil, and to reduce CO2 emissions. However, increasing the gap of demand–supply for natural gas in the future, declining the average gas reserves, and postponing the gas import may challenge the natural gas industry, climate, and performance of Pakistan’s economy. Thus, these concerns must be addressed to help the natural gas industry for an easy transition to a low-carbon future