حرفِ خاک
اردو شاعری قدیم روایت کی حامل ہے ۔جس میں ہر شاعر نے اپنا حصہ ڈالا ہے ۔شاعری کی حساسیت اسے مجبور کرتی ہے کہ معاشرتی جبر کو بیان کرے ۔اس کے لیے تشبیہات و استعارات ایسے مورچے ہیں جس کی آڑ میں وہ جبر ،بربریت کو بآسانی بیان کر سکتا ہے ۔
جب ہم منان لطیف ؔ کی نظموں کا مطالعہ کرتے ہیں تو کائنات اور اس کے باسیوں کی حقیقت کھل کر سامنے آتی ہے ۔آوارگانِ خاک تب سے اب تک اور اب سے نجانے کب تک گردشِ ایام کی دبیز تہوں میں غوطہ زن ہو تا رہے گا اور چار پہیوں کی تلاش میں مقامِ انسانیت کھوتا رہے گا ۔احساسِ برتری ایک ایسا زہر ہے جسے انسان ناز پرور ہونٹوں سے اپنے رگ و پے میں اتارتا چلا جاتا ہے۔
’’گردشِ خاک‘‘میں انسانیت سسکتی بلکتی نظر آتی ہے ۔جیسے یہ جہان تندور کی مانند ہے جو اس میں داخل ہوتا ہے وہ اس میں جلتا دکھائی دیتا ہے ۔شکاری جال پھیلائے ہر لمحہ شکار کے منتظر ہیں ۔انسان آزاد و خود مختار ہو کر بھی پابہ زنجیر نظر آتا ہے ۔چھپکلیوں کی طرح حرص ،ہوس ،لالچ ،بغض اور کینہ پروری کی دیواریں چاٹتا نظر آتا ہے ۔
ایک طرف انسان قیاس آرائیوں میں چپ چاپ صبر کا کفن اوڑھ لیتا ہے ۔کئی سنتو رانیاں پریمی کے انتظار میں زندگی کے دن گن گن کر اپنی لٹیں اداس اور چھاتیاں خشک کر لیتی ہیں ۔منان لطیفؔ کی نظموں میں یہ احساس خاصاگہرا ہے ،جودراصل حالات و واقعات کی تصویر کاری ہے ۔
ڈاکٹرمحمد یسین رازؔ
شعبہ اردو
ہزارہ یونیورسٹی...
This article dealt with the description of services of Hażrat ‘Āyeshah (R. A) in the field of principles of derivation of legal rules from the legal texts of the Holy Quran and prophetic traditions, which is the second part of the series, in first part Quran was focused in this regard while in this article other sources of Islamic law as Prophetic tradition etc. Have been discussed and their applications in the juristic approach of Hażrat ‘Āyeshah, likewise, Qiyās is a method that uses analogy/ comparison to derive Islamic legal rulings for new developments due to importance and the need of society. Umm Al-Momineen Hażrat ‘Āyeshah (R. A) used to derive a ruling for new situations that are not addressed by Qur’an and Sunnah. Istiḥsān is the fourth principle of derivation of Aḥkām. Likewise, other sources considered by her including Istiḥsān, Istisḥāb, ‘Urf as principle of derivation of Aḥkām. ‘Urf is an Arabic Islamic term referring to the custom or knowledge of a given society. Furthermore, the method adopted for research is deductive. The study found that Hażrat ‘Āyeshah applied the said sources in her process of derivation of legal rules of Islam, which were followed by Muslim jurists in this regard, So it is recommended that student of Islamic Law should study efforts of the companion of Prophet peace be upon him and their principles in the field.
Microbial electrochemical cell (MXC) technology is a source of sustainable energy which comes from microorganisms. Recent advances in the fields of electromicrobiology and electrochemistry with focus on microbial electrolysis cells (MECs) has earned this technology its name as alternate “green energy”. Despite advances, this technology is still facing challenges to address low power and current density output. Thermoanaerobacter pseudethanolicus 39E (ATCC 33223), a thermophilic, Fe(III)-reducing, and fermentative bacterium, was evaluated for its ability to produce current from four electron donors xylose, glucose, cellobiose, and acetate with a fixed anode potential (+ 0.042 V vs SHE) in a microbial electrochemical cell (MXC). Under thermophilic conditions (60 °C), T. pseudethanolicus produced high current densities from xylose (5.8 ± 2.4 Am −2 ), glucose (4.3 ± 1.9 A m −2 ), and cellobiose (5.2 ± 1.6 A m −2 ). It produced insignificant current when grown with acetate, but consumed the acetate produced from sugar fermentation to produce electrical current. Low-scan cyclic voltammetry (LSCV) revealed a sigmoidal response with a midpoint potential of −0.17 V vs SHE. Coulombic efficiency (CE) varied by electron donor, with xylose at 34.8% ± 0.7%, glucose at 65.3% ± 1.0%, and cellobiose at 27.7% ± 1.5%. Anode respiration was sustained over a pH range of 5.4−8.3, with higher current densities observed at alkaline pH values. Scanning electron microscopy showed a well-developed biofilm of T. pseudethanolicus on the anode, and confocal laser scanning microscopy demonstrated a maximum biofilm thickness (Lf) greater than ~150 μm for the glucose-fed biofilm. Microbial electrochemical cells (MXCs) are devices powered by microorganisms to generate electricity via oxidation of organic substrates. It is critical to understand the significance of sediment inocula in forming anodic biofilms to improve MEC performance. Five environmental samples were evaluated for electrical current production using acetate-fed microbial electrolysis cells (MECs). Three of these samples were able to produce significant current densities ranging between 3 to 6.3 Am -2 . 16S rDNA targeted deep sequencing comparisons of anodic biofilms and sediment bacterial community structures revealed significant differences in bacterial community structures. Bacterial community producing the highest current density ixafter enrichment was dominated by the class Bacteroidia, δ-proteobacteria and Erysipelotrichi. Comparison of phylogenetic information of bacterial communities with 7 previously reported enriched samples by reconstruction of unobserved states (PICRUSt) analysis clearly distinguished the biofilm communities from the sediment inocula in terms of higher abundance of genes related to anode respiration. Principal Coordinate Analysis (PCoA) also indicated that the clustering of biofilm communities was in accordance with the predominant genera in each sample, such as Geobacter dominating one cluster of biofilms. All the sediments formed a single cluster, which included the Carolina mangrove biofilm community which showed only minor changes from its originating sediment community after enrichment. Predominantly, high current densities are associated with the enrichment of a few microorganisms, often within a single family; however, this organism can be different depending on the inoculum source. Because the selective enrichment selects for just a few bacteria, the biofilm community is significantly different from that of the sediment. While δ- proteobacteria (or the family Geobacteraceae) is dominant in many samples producing high current densities, other samples show communities with yet unidentified ARB as the major fraction.