Efficiency of utilisation of energy from maize- and broken rice-based diets in old White Leghorn and Rhode Island Red laying hens.   总被引：1，自引：0，他引：1  

S B Jadhao  C M ChandramoniTiwari  M Y Khan 《British poultry science》1999,40(2):275-283

1. The efficiency of utilisation of metabolisable energy (ME) for maintenance (k(m)) from diets containing maize and broken rice (BR) at 500 g/kg was studied in old White Leghorn (WL) and Rhode Island Red (RIR) laying hens using the respiration calorimetry technique. The maize-based diet contained 180.8 g crude protein (CP)/kg and 16.4 MJ gross energy (GE)/kg while the BR-based diet contained 173.2 g CP/kg and 16.3 MJ GE/kg. Diets were fed for 10 d, while an energy and nitrogen metabolism study was conducted during 3 d on an ad libitum-fed diet followed by another 3 d on two-thirds of the ad libitum-fed quantity. 2. ME values for the maize- and BR-based diets for WL hens were 73.3% and 77.6% of the GE, whereas for the RIR hens these were 77.7% and 80.0%, respectively. 3. Fasting heat productions, determined at the end of 24 h fast for WL and RIR hens were 473.2 and 366.1 kJ/kg W0.75/d, respectively. During fasting WL and RIR hens utilised body energy reserves with efficiencies of 84.9% and 73.7%, respectively. 4. The k(m) of maize- and BR-based diets for the WL hens were 81.6% and 79.6%, whereas for the RIR hens these were 74.2% and 76.0%, respectively. 5. ME for maintenance of WL and RIR hens were 589 and 499.6 kJ/kg W0.75/d, respectively. 6. It is concluded that although WL and RIR hens differ significantly in energy metabolism, their efficiency of utilisation of energy from maize- and BR-based diets are similar.  相似文献   

Cross-bred Cattle Protected against Hyalomma anatolicum anatolicum by Larval Antigens Purified by Immunoaffinity Chromatography     

Ghosh  S.  Khan  M.H.  Ahmed  N. 《Tropical animal health and production》1999,31(5):263-273

Antigens from larvae of Hyalomma anatolicum anatolicum were extracted and purified by immunoaffinity chromatography using immunoglobulin ligands from cross-bred animals immunized with soluble larval antigen. Affinity-purified antigen (Aff-TLE) and a total larval extract (TLE) were used to immunize cross-bred (Bos indicus×Bos taurus) cattle. The group immunized with Aff-TLE rejected 71.6% of larvae and 77.3% of nymphs. However, the rejection percentages were lower in the TLE-immunized group. No significant changes in the feeding period, moulting percentages or moulting period of engorged larvae and nymphs were recorded. There was, however, a significant decrease in the number of resultant nymphs p<0.01) and adults (p<0.01) in the ticks fed on the Aff-TLE-immunized group. The Aff-TLE antigen was 93.3% purified. SDS-PAGE analysis identified a 39 kDa protein, reported for the first time, as the antigen responsible for the induction of resistance in the host.  相似文献   

Prey consumption during development as well as longevity and reproduction of Typhlodromus pyri Scheuten (Acari, Phytoseiidae) at higher temperatures in the laboratory     

C. Sengonca  I. A. Khan  P. Blaeser 《Anzeiger für Sch?dlingskunde》2003,78(1):57-64

The predatory mite Typhlodromus pyri Scheuten (Acari, Phytoseiidae) has been reported as an important predator of the European red mite, Panonychus ulmi (Koch) (Acari, Tetranychidae) in apple culture and vineyards at below 25°C. However, sufficient biological data was lacking on its efficiency at temperatures above 25°C. Therefore, the purpose of the present laboratory work was to obtain experimental data on prey consumption during development as well as longevity and reproduction of T. pyri on apple leaf discs and in Plexiglas cells at constant temperatures of 25±2°C and 30±2°C with P. ulmi as prey.The results showed that mean daily and total prey consumption by both the nymphs and adults of T. pyri decreased significantly on both the arenas as the temperature was increased from 25°C to 30°C, whereby adult prey consumption, both mean daily and total, was higher than that of nymphs. Prey consumption by both the nymphs and adults was significantly higher in the Plexiglas cells than on the leaf discs at both temperatures. Mean total prey consumption during nymphal development was 16.1 () and 12.8 () at 25°C compared to 7.0 () and 5.8 () preys at 30°C on the apple leaf discs and 46.0 () and 38.5 () at 25°C compared to 25.2 () and 20.3 () preys at 30°C in the Plexiglas cells. Mean duration of nymphal development was similar for the two sexes at the same temperature, but it was longer at 25°C than at 30°C. It was 6.0 and 4.0days on the apple leaf discs while 7.0 and 6.0days in the Plexiglas cells at 25°C and 30°C, respectively. Mean daily and total prey consumption by both male and female adults also decreased with the increasing temperature, whereby the females consumed more than double the mean total number of prey than the males on both the arenas of observation and at both temperatures: 355.4 versus 149.7 preys at 25°C and 192.2 versus 85.6preys at 30°C on the leaf discs and 826.8 versus 374.5 preys at 25°C and 488.9 versus 187.9 preys at 30°C in the Plexiglas cells. Longevity of the females was longer than males on both arenas and at both temperatures and it was longer at 25°C than at 30°C. Mean total longevity on the apple leaf discs was 68.3 () and 50.8 () days at 25°C compared to 52.5 () and 36.8 () days at 30°C, while in the Plexiglas cells it was 91.0 () and 65.8 () days at 25°C compared to 75.3 () and 48.5 () days at 30°C. Reproduction in females also decreased significantly with increasing temperature. It decreased from 62.0 to 39.0 eggs/female on the leaf discs and 75.0 to 47.1 eggs/female in the Plexiglas cells. The females laid significantly higher numbers of eggs at both temperatures in the Plexiglas cells than on the leaf discs. Oviposition period in females was 30days at 25°C on both the arenas, while at 30°C it was 26days on the apple leaf discs and 27days in the Plexiglas cells.  相似文献   

The impact of climate changes on agriculture export trade in Pakistan: Evidence from time‐series analysis     

Yasir Khan  Qiu Bin  Taimoor Hassan 《Growth and change》2019,50(4):1568-1589

Agriculture is one of the primary contributors to Pakistan's economy. However, over the last few decades, the atmospheric carbon dioxide emission has been amplified to a great extent in Pakistan. This amplification may cause climate change, global warming, and environmental mitigation in Pakistan. This paper empirically investigates the impact of CO₂ emissions on the agricultural export trade of Pakistan over the period 1975–2017. Evidence suggests that climate change could be a primary cause for the decline in Pakistan's agriculture export trade; no studies have been carried out for this specific issue, particularly over time. In this paper, the empirical analysis suggests the negative coefficient of agriculture export trade with CO₂ emissions subsequently decreases agriculture export trade, which leads to direct impact on Pakistan's economy. Both theoretical and empirical outcomes suggest that the adaptation of clean and green energies and technologies are the key to reduce pollution in Pakistan. Overall, the effects of carbon dioxide emissions on agriculture export trade are stronger in the long‐run dynamics, thus making the finding heterogeneous. Possible initiatives should be taken by the government of Pakistan to improve the agriculture sector and it should also introduce new policies to reduce the emissions of carbon dioxide.  相似文献   

The circulation of unique reassortment strains of infectious bursal disease virus in Pakistan          下载免费PDF全文

Altaf HUSSAIN  WU Tian-tian  FAN Lin-jin  WANG Yu-long  Farooq Khalid MUHAMMAD  JIANG Nan  GAO Li  LI Kai  GAO Yu-long  LIU Chang-jun  CUI Hong-yu  PAN Qing  ZHANG Yan-ping  Asim ASLAM  Khan MUTI-UR-REHMAN  Muhammad Imran ARSHAD  Hafiz Muhammad ABDULLAH  WANG Xiao-mei  QI Xiao-le 《农业科学学报》2020,19(7):1867-1875

Infectious bursal disease(IBD), caused by IBD virus(IBDV), is one of the most devastating and immunosuppressive diseases of the poultry and has been a constraint on the sustainable poultry production around the globe including Pakistan. While the disease is threatening the poultry industry, the nature of predominant strains of IBDV in Pakistan remained ill-defined. In this study, an epidemiology survey was conducted in the main chicken-farming regions of Pakistan. The batch of Pakistan IBDVs genes simultaneously covering both VP1 and VP2 were amplified, sequenced, and analyzed. The unique segmentreassortant IBDVs(vv-A/Uniq-B), carrying segment A from vvIBDV and segment B from one unique ancestor, were identified as one important type of circulating strains in Pakistan. The data also discovered the characteristic molecular features of Pakistan IBDVs, which will contribute to scientific vaccine selection and effective prevention of the disease.  相似文献   

Tillage practices improve rice yield and soil phosphorus fractions in two typical paddy soils     

Ahmed  Waqas  Qaswar  Muhammad  Jing  Huang  Wenjun  Dong  Geng  Sun  Kailou  Liu  Ying  Meng  Ao  Tang  Mei  Sun  Chao  Li  Yongmei  Xu  Ali  Sehrish  Normatov  Yodgar  Mehmood  Sajid  Khan  Muhammad Numan  Huimin  Zhang 《Journal of Soils and Sediments》2020,20(2):850-861

Journal of Soils and Sediments - This research was undertaken (I) to evaluate the status of phosphorus fractions in paddy soils in response to different tillage management practices under different...  相似文献   

Enhancing phosphorus availability,soil organic carbon,maize productivity and farm profitability through biochar and organic–inorganic fertilizers in an irrigated maize agroecosystem under semi‐arid climate     

Muhammad Arif  Salman Ali  Muhammad Ilyas  Muhammad Riaz  Kashif Akhtar  Kawsar Ali  Muhammad Adnan  Shah Fahad  Imran Khan  Shahen Shah  Haiyan Wang 《Soil Use and Management》2021,37(1):104-119

Biochar amendments offer promising potential to improve soil fertility, soil organic carbon (SOC) and crop yields; however, a limited research has explored these benefits of biochar in the arid and semi‐arid regions. This two‐year field study investigated the effects of Acacia tree biomass‐derived biochar, applied at 0 and 10 t ha^?1 rates with farmyard manure (FYM) or poultry manure (PM) and mineral phosphorus (P) fertilizer combinations (100 kg P ha^‐1), on maize (Zea mays L.) productivity, P use efficiency (PUE) and farm profitability. The application of biochar with organic–inorganic P fertilizers significantly increased soil P and SOC contents than the sole organic or inorganic P fertilizers. Addition of biochar and PM as 100% P source resulted in the highest soil P (104% increase over control) and SOC contents (203% higher than control). However, maize productivity and PUE were significantly higher under balanced P fertilizer (50% organic + 50% mineral fertilizer) with biochar and the increase was 110%, 94% and 170% than 100%‐FYM, 100%‐PM and 100% mineral fertilizer, respectively. Maize productivity and yield correlated significantly positively with soil P and SOC contents These positive effects were possibly due to the ability of biochar to improve soil properties, P availability from organic–inorganic fertilizers and SOC which resulted in higher PUE and maize productivity. Despite the significant positive relationship of PUE with net economic returns, biochar incorporation with PM and mineral fertilizer combination was economically profitable, whereas FYM along biochar was not profitable due to short duration of the field experiments.  相似文献   

Removing constraints to sustainable food production: new ways to exploit secondary metabolism from companion planting and GM     

John A Pickett  Charles AO Midega  Jimmy Pittchar  Zeyaur R Khan 《Pest management science》2019,75(9):2346-2352

The entire process of agricultural and horticultural food production is unsustainable as practiced by current highly intensive industrial systems. Energy consumption is particularly intensive for cultivation, and for fertilizer production and its incorporation into soil. Provision of nitrogen contributes a major source of the greenhouse gas, N₂O. All losses due to pests, diseases and weeds are of food for which the carbon footprint has already been committed and so crop protection becomes an even greater concern. The rapidly increasing global need for food and the aggravation of associated problems by the effects of climate change create a need for new and sustainable crop protection. The overall requirement for sustainability is to remove seasonal inputs, and consequently all crop protection will need to be delivered via the seed or other planting material. Although genetic modification (GM) has transformed the prospects of sustainable crop protection, considerably more development is essential for the realisation of the full potential of GM and thereby consumer acceptability. Secondary plant metabolism offers wider and perhaps more robust new crop protection via GM and can be accomplished without associated yield loss because of the low level of photosynthate diverted for plant defence by secondary metabolism. Toxic mechanisms can continue to be targeted but exploiting non‐toxic regulatory and signalling mechanisms should be the ultimate objective. There are many problems facing these proposals, both technical and social, and these are discussed but it is certainly not possible to stay where we are in terms of sustainability. The evidence for success is mounting and the technical opportunities from secondary plant metabolism are discussed here. © 2019 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.  相似文献   

Essential oil bearing aromatic plants: Their potential for sequestering carbon in marginal soils of India     

Khushboo Khan  Rajesh K. Verma 《Soil Use and Management》2020,36(4):565-570

Continuous rise in the atmospheric CO₂ concentration upshots the genesis of cataclysmic planetary problems such as global warming and climate change. Another critical issue which is environmentally challenging is land degradation. When productive land is poorly managed, it turns to marginal land. And further degradation of marginal land ends up to being unproductive land. On the Contrary, considerable part of depleted soil C pool can be restored through the adoption of conservation agricultural practices, unproductive land could be converted to marginal land and by its further restoration, into productive land. Aromatic plants can sustain various adverse conditions prevailing on the marginal lands. Aromatic plants require low input but the output is quite high due to the production of highvalue essential oil. The pivotal perspective of utilization of marginal lands of India for the production of aromatic plants would explore factors such as land availability, aromatic plants adaptability, C sequestration potential and economic feasibility. India is the largest exporter of essential oils and produces huge amount of aromatic spent residues, which could be converted into several valueadded products. Proficient recycle of distillation waste of aromatic plants in marginal lands will aid to sequester C in soil and enhance the biomass yield. Improvement in the livelihood of farmers especially in developing nations through rise in production and income diversification would encourage farmers to reclaim their marginal lands and accelerate their transition to aromatically cultivable lands.  相似文献   

Silicon: a beneficial nutrient for maize crop to enhance photochemical efficiency of photosystem II under salt stress     

Waqas–ud–Din Khan  Tariq Aziz  Imran Hussain  Pia Muhammad Adnan Ramzani  Thomas G. Reichenauer 《Archives of Agronomy and Soil Science》2017,63(5):599-611

Soil salinity imposes an unprecedented risk to the soil fertility and availability of plant nutrients. The present proposal is designed to address the effect of salt stress on photosynthetic apparatus of maize including chlorophyll a fluorescence and how silicon nutrition helps to overcome this issue. In a sand culture experiment, two maize cultivars were sown in small pots with two levels of silicon (0 and 2 mM H₂SiO₃) and two levels of salinity stress (0 and 60 mM NaCl). Salinity stress reduced dry matter yield and potassium (K) concentration in both maize cultivars and also induced inefficient working of photosynthetic apparatus including photochemical efficiency of photosystem II. Silicon addition alleviated NaCl stress on maize crop by improving the dry matter yield and water use efficiency (WUE). It decreased shoot Na concentration by increasing root and shoot K concentration of maize plants. It enhanced maximum quantum yield of primary photochemistry which leads to smooth electron transport chain. It also significantly enhanced shoot silicon concentration and has a significant positive correlation with WUE. Therefore, silicon-treated maize plants have better chance to survive under salt stress conditions as their photosynthetic apparatus is working far better than non-silicon-treated plants.  相似文献