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Nonlinear Dynamics of Itg-Modelsin Dust Contaminated Magneto Plasma

Thesis Info

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Author

Khan, Muhammad Yaqub

Program

PhD

Institute

Quaid-I-Azam University

City

Islamabad

Province

Islamabad.

Country

Pakistan

Thesis Completing Year

2011

Thesis Completion Status

Completed

Subject

Mathemaics

Language

English

Link

http://prr.hec.gov.pk/jspui/bitstream/123456789/14006/1/7102H.PDF

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676726759793

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سرکار دی تاہنگ

سرکار دی تاہنگ

اکھاں تھکیاں تک تک راہ او خاناں
چھیتی آ ہن دیر نہ لا او خاناں
تسان ٹر گئے بہاراں رس گیاں
سسی ستی تے مہاراں کھس گیاں
تہاڈی یاد آئی اکھاں پس گیاں
بن ساون پیاس بجھا او خاناں
اکھاں تھکیاں تک تک راہ او خاناں
تہاڈے پیار سانوں مجبور ہے کیتا
توں ٹر گیا ساتھوں چپ چپیتا
کی دساں میرے نال جو بیتا
رہے اوکھا وقت نبھا او خاناں
اکھاں تھکیاں تک تک راہ او خاناں

The Lung Mass and Nodule: A Case Series The Lung Mass and Nodule

Lung mass is an abnormal region of 3 cm or more in size present in the lungs mainly due to underlying pulmonary caner. It is usually round, opaque and poorly differentiated on X-ray. Common etiological key players are smoking, exposure to asbestos, radon, however, familial history may also play a role. We presented retrospectively7 cases of lung mass and nodule encountered during our clinical practice. We have discussed their clinical presentation, manifestation, medical history, radiological findings and differential diagnosis. In this case series, most of the patients were young, only 2 cases were older patients. There was one infant one month old, one female child 12 years old, one female 25 years, 2 males, 22 and 21 years, one male of 50 years and another male of 60 years age. Correct diagnosis on the basis of clinical profile, radiological findings and histology may help in proper management and hence, timely treatment of the patient

Postharvest Fruit Softening and Quality Management of Mango Cv. Samar Bahisht Chaunsa

Mango is one of the highly perishable fruit that ripe quickly after harvest. Rapid fruit softening, reduced shelf and storage life limits its distribution to distant markets. The aims of current study were to a) optimize storage temperature in relation to fruit softening; b) physiological management of postharvest fruit softening and c) quality of mango cv. Samar Bahisht Chaunsa with exogenous application of various anti-ripening agents. In various independent experiments, postharvest applications of putrescine (PUT; 0.0, 0.1, 1.0, 1.5 or 2.0 mM), salicylic acid (SA; 0.0, 1.0, 2.0, 3.0 or 4.0 mM), oxalic acid (OA; 0.0, 1.0, 3.0 or 2.0 mM) or calcium chloride (CaCl2; 0.0, 1.0, 3.0 or 5.0%) were applied on mango after harvest to assess their impact on delayed fruit ripening, storage life extension, fruit quality, activities of fruit softening and antioxidative enzymes in the pulp tissues throughout the ripening (7-9 days) and cold storage (28 days) periods. In first experiment, during ripening at ambient conditions (25 ± 1°C; 60-65% RH), a gradual rise was noticed in fruit biochemical attributes such as SSC, SSA:TA ratio, total sugars, reducing and non-reducing sugars; however, ascorbic acid contents and TA showed a declining trend. Furthermore, a progressive increase was observed in the activities of fruit softening enzymes including exo- PG, endo-PG and EGase; whilst, PE activity decreased throughout the ripening period. The activities of CAT and POX enzymes along with total antioxidants were noticed at their peaks two days prior to full fruit ripening. In second experiment, among different cold storage temperatures, 12°C was found to be optimum to maintain best fruit quality characters. The activities of fruit softening enzymes were significantly suppressed at 10°C, as compared to 12°C and 14°C. Total phenolic and antioxidant contents and the activities of CAT, POX and SOD enzymes were reported higher at 14°C than 10°C and 12°C during cold storage. In third experiment, exogenous application of PUT (2 mM) treatments inhibited the ethylene production, respiration rate and maintained higher fruit firmness during ripening as well as cold storage. Fruit treated with 2 mM PUT exhibited a significant reduction in the activities of fruit softening enzymes i.e. exo-PG, endo-PG and EGase; however, maintained higher PE activity in pulp tissues during ripening and cold storage period. Total phenolic and antioxidants contents were significantly higher in 2 mM PUT-treated fruit during the entire ripening and cold storage period than control. The activities of antioxidative enzymes (CAT, POX and SOD) were significantly higher in 2 mM PUT-treated fruit during ripening and cold Abstract xxv storage periods. The SSC contents and SSC:TA ratio were lower in PUT-treated fruit; while, TA and ascorbic acid contents showed a reverse trend. In fourth experiment, the higher concentration of SA (4 mM) inhibited the ethylene production, respiration rate and suppressed the activities of fruit softening enzymes (exo-, endo-PG) with higher activities of PE and antioxidative (SOD, POX and CAT) enzymes, TA, ascorbic acid, total phenolic and antioxidant contents during ripening and cold storage period. During fifth experiment, exogenous application of OA (5 mM) reduced the ethylene production, respiration rate and delayed softening of mango fruit. The reduction and delay in fruit softening during ripening and cold storage was associated with higher PE activity or suppressed activity of exo-PG enzyme in pulp tissues of 5 mM OA-treated fruit. The OA-treated fruit (5 mM) showed increased activities of CAT, POX and SOD enzymes with higher levels of total phenolic and antioxidant contents during ripening and cold storage. The OA-treated fruit exhibited lower SSC contents and SSC:TA ratio; while, TA and ascorbic acid contents were higher throughout the ripening as well as cold storage periods. In the sixth experiment, delay in ripening of ‘Samar Bahisht Chaunsa’ mango fruit was associated with CaCl2 treatment mainly due to inhibition of respiration rate and ethylene production. The exo-PG, endo-PG, PE and EGase activities were significantly suppressed in 5% CaCl2-treated fruit, as compared to control throughout the ripening and cold storage periods. The 5% CaCl2 application showed a reduction in oxidative injury caused by reactive oxygen species through increased activities of antioxidative enzymes i.e. CAT, POX and SOD. During the seventh confirmatory trail, postharvest application of various anti-ripening compounds (2 mM PUT, 4 mM SA, 5 mM OA and 5% CaCl2) delayed the ethylene production and maintained an acceptable fruit quality during the course of study. The activities of fruit softening enzymes such as exo-PG, endo-PG, PE and EGase were significantly suppressed by the application of different anti-ripening chemicals throughout the trials. The use of various chemicals demonstrated elevated activities of antioxidative enzymes (CAT, POX and SOD) than control. In nutshell, the exogenous treatment of PUT (2 mM), SA (4 mM), OA (5 mM) or CaCl2 (5%) may extends the postharvest shelf and storage life of ‘Samar Bahisht Chaunsa’ mango fruit. Moreover, fruit treated with 2 mM PUT and 5% CaCl2 suppressed the activities of fruit softening enzymes; while, 2 mM OA and 4 mM SA exhibited higher activities of antioxidative enzymes with better quality of mango fruit.