Feeding behaviour of broiler chickens: a review on the biomechanical characteristics

Feed related costs are the main drivers of profitability of commercial poultry farms, and good nutrition is mainly responsible for the exceptional growth rate responses of current poultry species. So far, most research on the poultry feeding behaviour addresses the productivity indices and birds' physiological responses, but few studies have considered the biomechanical characteristics involved in this process. This paper aims to review biomechanical issues related to feed behaviour of domestic chickens to address some issues related to the feed used in commercial broiler chicken production, considering feed particle size, physical form and the impact of feeders during feeding. It is believed that the biomechanical evaluation might suggest a new way for feed processing to meet the natural feeding behaviour of the birds

Metal-oxide nanotubes functional material tailored for membrane water/wastewater treatment

Titanium Dioxide Nano-Tubes (TNTs) synthesized by hydrothermal method were used to prepare new polysulfone thin film nanocomposite (TFN) membranes. The TFN membranes contained different TNTs proportions (0.1, 0.3 and 0.5 wt. %). A polyamide selective layer was formed on top of the TFN membrane surface using interfacial polymerization (IP). Nanofiltration experiments were performed using NaCl and MgSO4 salts solutions. The water flux was found to increase with increased TNT loading in the membrane due to high porosity of embedded nanoparticles and the formation of enlarged pores. The antifouling behaviour of the membrane was tested by bovine serum albumin (BSA) solution and found to improve with increased TNT content in the membrane. - 2019 IOP Publishing Ltd. All rights reserved.This paper was made possible by an NPRP10-0127-170270 and NPRP8-1115-2-473 from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of the authors.Scopu

PENGARUH PH TERHADAP PRODUKTIVITAS GAS DI REAKTOR ANAEROB DENGAN SUBSTRAT LIMBAH MAKANAN

Biogas adalah campuran gas yang dihasilkan oleh mikroorganisme atau bakteri anaerob. Biogas dapat dihasilkan dari substrat seperti limbah pertanian, pupuk kandang, sampah kota dan limbah makanan. Biogas dapat diproduksi oleh siklus hidup bakteri secara alami sebagai produk samping dari proses metabolisme. Produksi biogas pada proses ini dipengaruhi oleh faktor lingkungan seperti nilai pH. Diketahui bahwa produksi biogas pada nilai pH 6.8-7.2 lebih efektif[1]. Tujuan penelitian ini adalah mengetahui dan menganalisa produksi biogas dengan nilai pH dengan kondisi nilai pH yang berbeda yaitu, dikondisikan di nilai pH 6,8-7,2, dan tanpa dikondisikan. Serta mengukur nilai COD (Chemical Oxigen Demand ) dan TSS (Total Susppended Solid ) dengan kondisi nilai pH yang sama. Pada penelitian ini, substrat yang digunakan adalah nasi. Dari percobaan diperoleh jumlah volume gas produksi terbesar terjadi pada pH dikondisikan, terjadi pada hari ke-4 dengan 8,31 liter gas. Penurunan nilai COD terbesar pada pH dikondisikan sebesar 54% atau sebesar 1332 ppm. Penurunan nilai TSS terbesar pada pH dikondisikan sebesar 41,4% atau sebesar 750 ppm. Kata kunci: Biogas;Volume Gas; Nilai pH; nilai COD ; Nilai TSS

Reaction kinetics of carbon dioxide in aqueous blends of N-methyldiethanolamine and L-arginine using the stopped-flow technique

Reduction of carbon dioxide emission from natural and industrial flue gases is paramount to help mitigate its effect on global warming. Efforts are continuously deployed worldwide to develop efficient technologies for CO 2 capture. The use of environment friendly amino acids as rate promoters in the present amine systems has attracted the attention of many researchers recently. In this work, the reaction kinetics of carbon dioxide with blends of N-methyldiethanolamine and L-Arginine was investigated using stopped flow technique. The experiments were performed over a temperature range of 293 to 313 K and solution concentration up to one molar of different amino acid/amine ratios. The overall reaction rate constant (k ov ) was found to increase with increasing temperature and amine concentration as well as with increased proportion of L-Arginine concentration in the mixture. The experimental data were fitted to the zwitterion and termolecular mechanisms using a nonlinear regression technique with an average absolute deviation (AAD) of 7.6% and 8.0%, respectively. A comparative study of the promoting effect of L-Arginine with that of the effect of Glycine and DEA in MDEA blends showed that MDEA-Arginine blend exhibits faster reaction rate with CO 2 with respect to MDEA-DEA blend, while the case was converse when compared to the MDEA-Glycine blend.The authors thank Ahmed Soliman and Dan Jerry Cortes for providing laboratory support This paper was made possible by an NPRP Grant # 7-1154-2-433 from the Qatar National Research Fund (a member of Qatar Foundation)

Predicting Broiler Breeder's Behavior Using Electronic Identification

Rosana G. Moreira, Editor-in-Chief; Texas A&M UniversityThis is a Technical Paper from International Commission of Agricultural Engineering (CIGR, Commission Internationale du Genie Rural) E-Journal Volume 4 (2002): F. Curto, I. Naas, D. Pereira, D. Salagado, M. Murayama and F. Behrens. Predicting Broiler Breeder's Behavior Using Electronic Identification. Vol. IV. December 2002

966-45 QT Dispersion in Essential Hypertension

Increased QT dispersion (QTd) reflects regional variation in ventricular repolarisation, and has been shown in heart failure and hypertrophic cardiomyopathy to relate to an increased incidence of sudden death. As essential hypertensives (EH) are also at increased risk of sudden death we aimed to determine whether increased QTd is found in those EH who are known to be at the highest risk of sudden death. In 50 EH we measured QTd (maximum corrected QT interval minus minimum corrected QT interval), echocardiographic left ventricular mass index (LVMI) (n=46 as 4 patients non-echogenic), office systolic and diastolic blood pressure (SSP, DSP), and 24 hour ambulatory systolic and diastolic blood pressure (24 SSP, 24 DSP) (n=40). Univariate analysis demonstrated no relationship between QTd and age, sex, height, weight, 24 SSP or 24 DBP. Significant relationships existed between QTd and LVMI (R2=0.25, P<0.001), SSP (R2=0.16, P<0.01), DSP (R2=0.08, P<0.05). Multiple linear regression analysis revealed the only relationships to QTd were LVMI (p<0.01) and SSP (p<0.05). Excluding 4 patients with electro-cardiographic left ventricular hypertrophy (ECG-LVH) from the analysis a significant relationship between QTd and LVMI (R2=0.13, P<0.05) and SSP (R2=0.10, P<0.05) persists. These demonstrate that increased QTd is found in EH with the highest risk of sudden death (greatest SSP and LVMI). This relationship persists in the absence of ECG-LVH. Further study of QTd, as a predictor of sudden death in EH is warranted

Kinematic measurements of novel chaotic micromixers to enhance mixing performances at low reynolds numbers : Comparative study

Funding Information: Funding: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korean government (MSIT) (No. 2019R1A2C1007657). The authors gratefully acknowledge this support.Peer reviewedPublisher PD

Host-linked soil viral ecology along a permafrost thaw gradient

Climate change threatens to release abundant carbon that is sequestered at high latitudes, but the constraints on microbial metabolisms that mediate the release of methane and carbon dioxide are poorly understood1,2,3,4,5,6,7. The role of viruses, which are known to affect microbial dynamics, metabolism and biogeochemistry in the oceans8,9,10, remains largely unexplored in soil. Here, we aimed to investigate how viruses influence microbial ecology and carbon metabolism in peatland soils along a permafrost thaw gradient in Sweden. We recovered 1,907 viral populations (genomes and large genome fragments) from 197 bulk soil and size-fractionated metagenomes, 58% of which were detected in metatranscriptomes and presumed to be active. In silico predictions linked 35% of the viruses to microbial host populations, highlighting likely viral predators of key carbon-cycling microorganisms, including methanogens and methanotrophs. Lineage-specific virus/host ratios varied, suggesting that viral infection dynamics may differentially impact microbial responses to a changing climate. Virus-encoded glycoside hydrolases, including an endomannanase with confirmed functional activity, indicated that viruses influence complex carbon degradation and that viral abundances were significant predictors of methane dynamics. These findings suggest that viruses may impact ecosystem function in climate-critical, terrestrial habitats and identify multiple potential viral contributions to soil carbon cycling