Results 31 to 40 of about 1,224 (176)
Effects of different sources of protein on digestive characteristics, microbial efficiency, and nutrient flow in dairy goats</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Revista Brasileira de Zootecnia</i>, 2011 </span><br><span class="r_content">Diets formulated with protein sources presenting different resistance to ruminal degradation were compared by evaluating ruminal parameters, production and microbial efficiency and nutrients flow to the omasum in goats.</span><br><span class="r_sub"><i>Nivea Regina de Oliveira Felisberto<span id="ma_1" style="display:none">, Marcelo Teixeira Rodrigues, Marco Aurélio Delmondes Bomfim, Rogério da Silva Matos, Ana Gabriela Pombo Celles Cordeiro, Márcia Maria Cândido da Silva</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_1')">+5 more</a></small></i></span><br><small><a href="https://doaj.org/article/4084dd885f454b86a03aaa73a1cb219d" target="_blank" rel="nofollow" title="doaj.org/article/4084dd885f454b86a03aaa73a1cb219d">doaj</a> </small> <div id="more_1" style="display:none"><a href="/sci_redir.php?doi=10.1590%2FS1516-35982011001000024" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1590/S1516-35982011001000024'); alert('Copied the doi');">copy doi</a> <small>(10.1590/S1516-35982011001000024)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_1')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1590/1678-5150-pvb-6744" target="_blank" rel="nofollow">Digestive disorders associated with the consumption of palm fiber (Elaeis guineensis) in feedlot cattle</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Pesquisa Veterinária Brasileira</i>, 2021 </span><br><span class="r_content">: Digestive disorders in cattle are associated with the breeding system and feed provided to the animals. Abomasal compaction is primarily related to the ingestion of forage with elevated levels of lignin, low quality, and difficult digestibility.</span><br><span class="r_sub"><i>Natalia Maxine F.P. Sarmento<span id="ma_2" style="display:none">, Márcio Alan O. Moura, Rosekelly J. Cardoso, Adrielli Heloise A. Lima, Pedro S. Bezerra Junior, Marcos D. Duarte, Valíria D. Cerqueira, Gabriela Riet-Correa</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_2')">+7 more</a></small></i></span><br><small><a href="https://doaj.org/article/b930ebf2bfe54a16afd68df6b375c209" target="_blank" rel="nofollow" title="doaj.org/article/b930ebf2bfe54a16afd68df6b375c209">doaj</a> </small> <div id="more_2" style="display:none"><a href="/sci_redir.php?doi=10.1590%2F1678-5150-pvb-6744" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1590/1678-5150-pvb-6744'); alert('Copied the doi');">copy doi</a> <small>(10.1590/1678-5150-pvb-6744)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_2')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.13170/aijst.4.3.3011" target="_blank" rel="nofollow">Morphological Characteristics of the Stomach of the Swamp Buffalo (Bubalus bubalis)</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Aceh International Journal of Science and Technology</i>, 2015 </span><br><span class="r_content">The ability of swamp buffaloes for adaptation to swampland was suggested to be supported by their digestive system efficiency including absorption one. This research was done to obtain scientific explanation about digestive efficiency of swamp buffalo by </span><br><span class="r_sub"><i>Anni Nurliani<span id="ma_3" style="display:none">, Teguh Budipitojo, Dwi Liiek Kusindarta</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_3')">+2 more</a></small></i></span><br><small><a href="https://doaj.org/article/880c81eaeae9477cabaeee093e5896c4" target="_blank" rel="nofollow" title="doaj.org/article/880c81eaeae9477cabaeee093e5896c4">doaj</a> </small> <div id="more_3" style="display:none"><a href="/sci_redir.php?doi=10.13170%2Faijst.4.3.3011" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.13170/aijst.4.3.3011'); alert('Copied the doi');">copy doi</a> <small>(10.13170/aijst.4.3.3011)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_3')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1590/1678-5150-pvb-6535" target="_blank" rel="nofollow">Spontaneous poisoning by Stryphnodendron rotundifolium var. villosum in cattle</a> <b><a href="http://www.scielo.br/pdf/pvb/v40n6/1678-5150-pvb-40-06-438.pdf" target="_blank" rel="nofollow">[PDF]</a></b> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Pesquisa Veterinária Brasileira</i>, 2020 </span><br><span class="r_content">: This is a report on an outbreak of cattle poisoning by Stryphnodendron rotundifolium var. villosum (Benth.) Scalon in the state of Goiás in Brazil. In a herd of 80 cattle that consumed the mature fruit of this plant that was present in their pasture ...</span><br><span class="r_sub"><i>Igor R. Santos<span id="ma_4" style="display:none">, Janaína C. Lima, Fábio H. Oliveira, Hugo H. Ferreira, Marcus V.V. Ramos, Adriana S. Santos</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_4')">+5 more</a></small></i></span><br><small><a href="https://doaj.org/article/8365ec99844845db8675975c6c4f27ff" target="_blank" rel="nofollow" title="doaj.org/article/8365ec99844845db8675975c6c4f27ff">doaj</a> </small> <div id="more_4" style="display:none"><a href="/sci_redir.php?doi=10.1590%2F1678-5150-pvb-6535" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1590/1678-5150-pvb-6535'); alert('Copied the doi');">copy doi</a> <small>(10.1590/1678-5150-pvb-6535)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_4')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.5713/ajas.16.0166" target="_blank" rel="nofollow">Characterization of the microbial communities along the gastrointestinal tract of sheep by 454 pyrosequencing analysis</a> <b><a href="http://www.ajas.info/upload/pdf/ajas-30-1-100.pdf" target="_blank" rel="nofollow">[PDF]</a></b> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Asian-Australasian Journal of Animal Sciences</i>, 2017 </span><br><span class="r_content">Objective The gastrointestinal tract of sheep contain complex microbial communities that influence numerous aspects of the sheep’s health and development.</span><br><span class="r_sub"><i>Jin Wang<span id="ma_5" style="display:none">, Huan Fan, Ye Han, Jinzhao Zhao, Zhijiang Zhou</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_5')">+4 more</a></small></i></span><br><small><a href="https://doaj.org/article/25145206183d49b3b83eefd1dbb3edb4" target="_blank" rel="nofollow" title="doaj.org/article/25145206183d49b3b83eefd1dbb3edb4">doaj</a> </small> <div id="more_5" style="display:none"><a href="/sci_redir.php?doi=10.5713%2Fajas.16.0166" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.5713/ajas.16.0166'); alert('Copied the doi');">copy doi</a> <small>(10.5713/ajas.16.0166)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_5')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.3390/ani11030757" target="_blank" rel="nofollow">Predicting the Digestive Tract Development and Growth Performance of Goat Kids Using Sigmoidal Models</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Animals</i>, 2021 </span><br><span class="r_content">The transition from monogastric to rumination stage is crucial in ruminants’ growth to avoid stressors—weaning and neonatal mortalities. Poor growth of the digestive tract could adversely affect the performance of the animal.</span><br><span class="r_sub"><i>Mahmoud Abdelsattar<span id="ma_6" style="display:none">, Yimin Zhuang, Kai Cui, Yanliang Bi, Naifeng Zhang</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_6')">+4 more</a></small></i></span><br><small><a href="https://doaj.org/article/1e629fa668c941c99ec9f703f494d0ec" target="_blank" rel="nofollow" title="doaj.org/article/1e629fa668c941c99ec9f703f494d0ec">doaj</a> </small> <div id="more_6" style="display:none"><a href="/sci_redir.php?doi=10.3390%2Fani11030757" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.3390/ani11030757'); alert('Copied the doi');">copy doi</a> <small>(10.3390/ani11030757)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_6')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.7557/2.12.2.1027" target="_blank" rel="nofollow">Muskox and caribou adaptation to grazing on the Angujaartorfiup Nunaa range in West Greenland</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Rangifer</i>, 1992 </span><br><span class="r_content">In recent years (1970-90) the caribou population of the Angujaartorfiup Nunaa range has decreased from about 40 000 animals to 2000. Overgrazing presumably depleted the lichen resources on the range during the population peak. At the same time altogether </span><br><span class="r_sub"><i>Hans Staaland, Carsten Riis Olesen</i></span><br><small><a href="https://doaj.org/article/6c3a4547ceef49d381d0e98c014c1fad" target="_blank" rel="nofollow" title="doaj.org/article/6c3a4547ceef49d381d0e98c014c1fad">doaj</a> </small> <div id="more_7" style="display:none"><a href="/sci_redir.php?doi=10.7557%2F2.12.2.1027" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.7557/2.12.2.1027'); alert('Copied the doi');">copy doi</a> <small>(10.7557/2.12.2.1027)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_7')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/aro2.70048" target="_blank" rel="nofollow">Dietary Glutamine Supplementation Alleviated Rumen Epithelium Oxidative Damage and Apoptosis Induced by Feed Restriction via Maintaining Mitochondrial Homeostasis in Female Yaks</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Animal Research and One Health, EarlyView.</i></span><br><span class="r_content">Dietary glutamine (Gln) supplementation increased the ATP levels and promoted cell proliferation in the rumen epithelium of feed‐restricted yaks. Besides, Gln inhibited ROS accumulation and reduced oxidative damage and apoptosis in the rumen epithelium of feed‐restricted yaks.</span><br><span class="r_sub"><i>Ziqi Yue<span id="ma_8" style="display:none">, Shanpeng Ke, Liyuan Shi, Rui Hu, Zhisheng Wang, Quanhui Peng, Huawei Zou, Jianxin Xiao, Yahui Jiang, Fali Wu, Yiping Tang</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_8')">+10 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/aro2.70048?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/aro2.70048?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small> <div id="more_8" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Faro2.70048" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/aro2.70048'); alert('Copied the doi');">copy doi</a> <small>(10.1002/aro2.70048)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_8')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/aro2.70016" target="_blank" rel="nofollow">Technological Innovations and Applications of Spatial Transcriptomics in Livestock and Poultry Research</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Animal Research and One Health, Volume 4, Issue 1, Page 14-27, February 2026.</i></span><br><span class="r_content">The paper is divided into three main sections: a review of the development of spatial transcriptomics technology, its applications in livestock and poultry research, and its future prospects. This article provides an overview of the current state of spatial transcriptomics in animal research, exploring its integration with multiomics technologies as ...</span><br><span class="r_sub"><i>Mingyu Wang<span id="ma_9" style="display:none">, Ao Guo, Lin Zhang, Shengru Wu, Juan Du, Taiyong Yu</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_9')">+5 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/aro2.70016?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/aro2.70016?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small> <div id="more_9" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Faro2.70016" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/aro2.70016'); alert('Copied the doi');">copy doi</a> <small>(10.1002/aro2.70016)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_9')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/cne.70140" target="_blank" rel="nofollow">Neuromeric Organization of the Microbat Brain: Conserved and Distinct Regional Features</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Journal of Comparative Neurology, Volume 534, Issue 2, February 2026.</i></span><br><span class="r_content">The fundamental neuromeric modular plan is remarkably conserved across bats and rodents. However, there are significant regional differences in the size and organization of specific derivatives (A). In addition, both Tadarida brasiliensis and Myotis myotis share similar general patterns of TH‐positive processes and tracts in the basal plate of the ...</span><br><span class="r_sub"><i>F. Lucero‐Arteaga<span id="ma_10" style="display:none">, A. Abrego‐Alvarez, M. Clauzure, S. Labegorra, V. Heck, A. I. Portu, M. A. Boeris, M. A. Mondino, B. Ribeiro Do‐Couto, K. Y. Tseng, M. Á. García‐Cabezas, J. L. Ferran</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_10')">+11 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/cne.70140?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/cne.70140?mi=2or9o2m&af=R&AllField=omasum&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small> <div id="more_10" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fcne.70140" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/cne.70140'); alert('Copied the doi');">copy doi</a> <small>(10.1002/cne.70140)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_10')">+1 more source</a></small><br></div><div class="r"><div style="margin-bottom:2px;overflow:hidden"><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-animals/" class="suggestion"onclick="show_loader();"><b>animals</b></a><br/><a href="/q-cattle/" class="suggestion"onclick="show_loader();"><b>cattle</b></a><br/><a href="/q-sheep/" class="suggestion"onclick="show_loader();"><b>sheep</b></a><br/></div><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-stomach/" class="suggestion"onclick="show_loader();"><b>stomach</b></a><br/><a href="/q-female/" class="suggestion"onclick="show_loader();"><b>female</b></a><br/><a href="/q-sodium/" class="suggestion"onclick="show_loader();"><b>sodium</b></a><br/></div><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-abomasum/" class="suggestion"onclick="show_loader();"><b>abomasum</b></a><br/><a href="/q-2._zero_hunger/" class="suggestion"onclick="show_loader();"><b>2. zero hunger</b></a><br/><a href="/q-omaso/" class="suggestion"onclick="show_loader();"><b>omaso</b></a><br/></div></div></div><div class="pagenav"><a href="/q-omasum/p-3/" rel="nofollow"><b>previous</b></a> <a href="/q-omasum/p-2/" rel="nofollow">2</a> <a href="/q-omasum/p-3/" rel="nofollow">3</a> <b>4</b> <a href="/q-omasum/p-5/" rel="nofollow">5</a> <a href="/q-omasum/p-6/" rel="nofollow">6</a> <a href="/q-omasum/p-5/" id="next" rel="nofollow"><b>next</b></a> </div><br></div>
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