Airborne Microorganisms From Livestock Production Systems and Their Relation to Dust

Zhao, Yang; Aarnink, A.J.A.; Jong, M.C.M. de; Koerkamp, P.W.G. Groot

doi:10.1080/10643389.2012.746064

Cited by 106 publications

(106 citation statements)

References 281 publications

(244 reference statements)

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“…1; step 3 in the lower picture). Furthermore, part of the micro-organisms present in PM becomes inactivated through factors as UV-radiation, temperature, and humidity (Zhao et al, 2014). Eventually, neighboring residents of livestock farms may be exposed to elevated levels of livestock-related PM (Table 3).…”

Section: Tablementioning

confidence: 99%

“…In contrast to secondary PM, primary PM is emitted as particles from livestock houses which mainly fall in the size range larger than 2.5 µm (Lai et al, 2014). It originates from mechanical processes and organic sources inside the house, such as manure, feathers, and skin debris , and contains micro-organisms and pro-inflammatory endotoxins Zhao et al, 2014). Concentrations of these particles decrease with increasing distance from the emission point of livestock houses because they settle out to the ground and impact to vegetation, but also because they disperse and their concentration becomes diluted with cleaner air.…”

Section: Introductionmentioning

confidence: 99%

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Particulate matter emission from livestock houses: measurement methods, emission levels and abatement systems

Winkel

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Section: Tablementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Particulate matter emission from livestock houses: measurement methods, emission levels and abatement systems

Winkel

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“…In the aviary house system, dust production was mainly affected by hen activities on the litter floor (Nielsen et al, 2003, Cambra-López et al, 2010, Zhao et al, 2014. Light management can affect animal activity (Calvet et al, 2009).…”

Section: Dust Accumulationmentioning

confidence: 99%

Comparative Evaluation of Light-emitting Diode (LED) vs. Fluorescent (FL) Lighting in Commercial Aviary Hen Houses

Long¹,

Zhao²,

Wang³

et al. 2014

2014 ASABE Annual International Meeting

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In this ongoing study, indoor environment, production performance, egg quality, and some welfare aspects of laying hens in two commercial aviary houses installed with light-emitting diode (LED) lights are compared with those in two aviary houses of similar hen age with fluorescent (FL) lights. To date the study (covering 18 -44 weeks of hen age) shows the following preliminary results. The daily mean temperature and relative humidity (RH) in all houses were generally maintained within 20-25°C and 50-80%, respectively. The holders of LED and FL light bulbs had similar temperatures, approximately 40°C. There were no significant differences in hen production performance parameters between the LED and FL houses. Egg weight, yolk weight, yolk percentage and yolk color factor increased as hen age increased. The Haugh unit (HU) values of fresh eggs in all four houses at 27 and 40 weeks of age were 90 or higher, i.e., much greater than the "AA grade" egg threshold of 72.

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“…It is well known that PM levels are closely related to animal activities in livestock and poultry houses (Takai et al, 1998;Zhao et al, 2014b). When floor bedding or litter is provided in housing systems (such as AV housing) to accommodate animal natural behaviors (e.g.…”

Section: Particulate Matter (Pm) Concentrationsmentioning

confidence: 99%

Concentrations of Ammonia, Greenhouse Gases and Particulate Matters in Conventional Cage, Aviary, and Enriched Colony Laying-Hen Houses

Zhao¹,

Xin²,

Shepherd³

et al. 2014

2014 ASABE Annual International Meeting

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KeywordsIndoor air quality, ammonia, greenhouse gas, laying-hen, alternative hen housing Disciplines Agriculture | Bioresource and Agricultural Engineering CommentsResearch concerning comparative environmental impacts between conventional cage and emerging alternative laying-hen housing systems is relatively limited under US production conditions. As an integral part of the Coalition for Sustainable Egg Supply (CSES) project, a 27-month continual environmental monitoring (covering two single-cycle flocks) described in this paper quantifies the indoor gaseous and particulate matter (PM) concentrations, thermal environment, and housing ventilation rate (VR) for a conventional cage (CC) house, an aviary (AV) house, and an enriched colony (EC) house. Results show that indoor temperature and relative humidity (RH) in all three houses were well maintained through proper ventilation management and supplemental heat in wintertime (AV house only). Daily mean(±SD) indoor ammonia (NH3) concentrations were 4.3(±2.6) ppm for CC house, 7.1(±6.3) ppm for AV house, and 2.8(±1.8) ppm for EC house. The NH3 concentrations in the AV house were significantly higher than those in CC or EC house, and occasionally exceeded 25 ppm under cold weather conditions (ambient temperature <7.2°C). Daily mean(±SD) indoor carbon dioxide (CO2) and methane (CH4) concentrations were, respectively, 2153(±1058) and 11.1(±5.7) ppm for CC house, 2485(±1268) and 11.6(±5.5) ppm for AV house, and 2241(±1145) and 11.8(±5.9) ppm for EC house. The particulate matter (PM) concentrations in AV house were significantly higher than those in CC or EC house. Daily mean (±SD) concentrations of PM10 and PM2.5 were, respectively, 0.59(±0.16) and 0.035(±0.013) mg m-3 for CC house, 3.95(±2.83) and 0.410(±0.251) mg m-3 for AV house, 0.44(±0.18) and 0.056(±0.021) mg m-3 for EC house. Overall, indoor air quality of the EC house was comparable with that of the CC house; however, the AV house experienced poor indoor air quality, especially during cold weather, resulting from the presence of floor litter and hens activities on it. Therefore searching for mitigation practices to improve indoor air quality in AV housing system is needed.This conference proceeding is available at Iowa State University Digital Repository: http://lib.dr.iastate.edu/abe_eng_conf/396The authors are solely responsible for the content of this technical presentation. The technical presentation does not necessarily reflect the official position of the American Society of Agricultural and Biological Engineers (ASABE), and its printing and distribution does not constitute an endorsement of views which may be expressed. Technical presentations are not subject to the formal peer review process by ASABE editorial committees; therefore, they are not to be presented as refereed publications. Citation of this work should state that it is from an ASABE conference presentation. (Conference Name

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Airborne Microorganisms From Livestock Production Systems and Their Relation to Dust

Cited by 106 publications

References 281 publications

Particulate matter emission from livestock houses: measurement methods, emission levels and abatement systems

Particulate matter emission from livestock houses: measurement methods, emission levels and abatement systems

Comparative Evaluation of Light-emitting Diode (LED) vs. Fluorescent (FL) Lighting in Commercial Aviary Hen Houses

Concentrations of Ammonia, Greenhouse Gases and Particulate Matters in Conventional Cage, Aviary, and Enriched Colony Laying-Hen Houses

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