Results 41 to 50 of about 38,929 (297)

La presencia de Darwin en William Henry Hudson</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Cuyo. Anuario de Filosofía Argentina y Americana</i>, 2009 </span><br><span class="r_content">W. H. Hudson tuvo un contacto muy temprano con El origen de las especies; probablemente haya leído el libro el mismo año de su aparición (1859). Esta lectura lo acercó a una filosofía naturalista que, a la vez, lo alejó de la formación materna en ...</span><br><span class="r_sub"><i>Herminia Solari, Adrián Monjeau</i></span><br><small><a href="https://doaj.org/article/35819908642a4b67bec2664560b3d861" target="_blank" rel="nofollow" title="doaj.org/article/35819908642a4b67bec2664560b3d861">doaj</a> </small>   <br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1186/s43058-021-00144-7" target="_blank" rel="nofollow">Mixed-methods economic evaluation of the implementation of tobacco treatment programs in National Cancer Institute-designated cancer centers</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Implementation Science Communications</i>, 2021 </span><br><span class="r_content">Background The Cancer Center Cessation Initiative (C3I) was launched in 2017 as a part of the NCI Cancer Moonshot program to assist NCI-designated cancer centers in developing tobacco treatment programs for oncology patients.</span><br><span class="r_sub"><i>Ramzi G. Salloum<span id="ma_2" style="display:none">, Heather D’Angelo, Ryan P. Theis, Betsy Rolland, Sarah Hohl, Danielle Pauk, Jennifer H. LeLaurin, Yasmin Asvat, Li-Shiun Chen, Andrew T. Day, Adam O. Goldstein, Brian Hitsman, Deborah Hudson, Andrea C. King, Cho Y. Lam, Katie Lenhoff, Arnold H. Levinson, Judith Prochaska, Fabrice Smieliauskas, Kathryn Taylor, Janet Thomas, Hilary Tindle, Elisa Tong, Justin S. White, W. Bruce Vogel, Graham W. Warren, Michael Fiore</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_2')">+26 more</a></small></i></span><br><small><a href="https://doaj.org/article/ef8c44894a77489e86a0eaa2c8dd5e7b" target="_blank" rel="nofollow" title="doaj.org/article/ef8c44894a77489e86a0eaa2c8dd5e7b">doaj</a> </small>   <div id="more_2" style="display:none"><a href="/sci_redir.php?doi=10.1186%2Fs43058-021-00144-7" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1186/s43058-021-00144-7'); alert('Copied the doi');">copy doi</a> <small>(10.1186/s43058-021-00144-7)</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/10.1002/aps3.70057" target="_blank" rel="nofollow">Real‐time monitoring of root dielectric properties for assessing crop plant damage caused by foliar application of glyphosate</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Applications in Plant Sciences, EarlyView.</i></span><br><span class="r_content">Abstract Premise There is a knowledge gap regarding how foliar injury and restricted water uptake can be detected by measuring root dielectric response. This pot study nondestructively evaluated the efficiency of real‐time dielectric measurement to monitor the effects of glyphosate spraying.</span><br><span class="r_sub"><i>Imre Cseresnyés<span id="ma_3" style="display:none">, Anna Füzy, Tünde Takács</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://onlinelibrary.wiley.com/doi/10.1002/aps3.70057?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/aps3.70057?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small>   <div id="more_3" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Faps3.70057" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/aps3.70057'); alert('Copied the doi');">copy doi</a> <small>(10.1002/aps3.70057)</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/10.3389/fpls.2018.01588" target="_blank" rel="nofollow">Laboratory Microprobe X-Ray Fluorescence in Plant Science: Emerging Applications and Case Studies</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Frontiers in Plant Science</i>, 2018 </span><br><span class="r_content">In vivo and micro chemical analytical methods have the potential to improve our understanding of plant metabolism and development. Benchtop microprobe X-ray fluorescence spectroscopy (μ-XRF) presents a huge potential for facing this challenge. Excitation </span><br><span class="r_sub"><i>Eduardo S. Rodrigues<span id="ma_4" style="display:none">, Marcos H. F. Gomes, Nádia M. Duran, João G. B. Cassanji, Tatiana N. M. da Cruz, Analder Sant’Anna Neto, Susilaine M. Savassa, Eduardo de Almeida, Hudson W. P. Carvalho</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_4')">+8 more</a></small></i></span><br><small><a href="https://doaj.org/article/e9f97f7f3391468aaa7ca91d7efcf3a6" target="_blank" rel="nofollow" title="doaj.org/article/e9f97f7f3391468aaa7ca91d7efcf3a6">doaj</a> </small>   <div id="more_4" style="display:none"><a href="/sci_redir.php?doi=10.3389%2Ffpls.2018.01588" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.3389/fpls.2018.01588'); alert('Copied the doi');">copy doi</a> <small>(10.3389/fpls.2018.01588)</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://core.ac.uk/download/640369352.pdf" target="_blank" rel="nofollow">Collage for Hudson Riverfront Performing Arts Center (Project)</a> <b><a href="https://core.ac.uk/download/640369352.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">, 2022 </span><br><span class="r_content">Collage for unidentified project entitled Hudson Riverfront Performing Arts Center (n.d.). Currently Located at T-9. SWA1097_0623 Medium: mixed. Dimension (Inches) W 118.3 x H 41.</span><br><span class="r_sub"><i>Predock, Antoine</i></span><br><small><a href="https://core.ac.uk/works/171381190" target="_blank" rel="nofollow" title="core.ac.uk/works/171381190">core</a> </small>   <br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/brv.70170" target="_blank" rel="nofollow">Flight of the dragons: a global review of migration in Odonata</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Biological Reviews, EarlyView.</i></span><br><span class="r_content">ABSTRACT Insects are the most abundant and ecologically important animal migrants. Yet, we know relatively little about the patterns and processes underlying insect migration. Dragonflies (Anisoptera) and damselflies (Zygoptera) comprise the ancient insect order Odonata, whose ancestors were the first organisms to fly on Earth.</span><br><span class="r_sub"><i>Johanna S.U. Hedlund<span id="ma_6" style="display:none">, Myles Menz, Jason W. Chapman, Alexander Hayward</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_6')">+3 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/brv.70170?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/brv.70170?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small>   <div id="more_6" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fbrv.70170" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/brv.70170'); alert('Copied the doi');">copy doi</a> <small>(10.1002/brv.70170)</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/10.1371/journal.pone.0013314" target="_blank" rel="nofollow">Specific variants in the MLH1 gene region may drive DNA methylation, loss of protein expression, and MSI-H colorectal cancer.</a> <b><a href="http://europepmc.org/articles/PMC2954166?pdf=render" 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>PLoS ONE</i>, 2010 </span><br><span class="r_content">We previously identified an association between a mismatch repair gene, MLH1, promoter SNP (rs1800734) and microsatellite unstable (MSI-H) colorectal cancers (CRCs) in two samples.</span><br><span class="r_sub"><i>Miralem Mrkonjic<span id="ma_7" style="display:none">, Nicole M Roslin, Celia M Greenwood, Stavroula Raptis, Aaron Pollett, Peter W Laird, Vaijayanti V Pethe, Theodore Chiang, Darshana Daftary, Elizabeth Dicks, Stephen N Thibodeau, Steven Gallinger, Patrick S Parfrey, H Banfield Younghusband, John D Potter, Thomas J Hudson, John R McLaughlin, Roger C Green, Brent W Zanke, Polly A Newcomb, Andrew D Paterson, Bharati Bapat</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_7')">+21 more</a></small></i></span><br><small><a href="https://doaj.org/article/45b1bc6790fc4e3ba3677cd88b67c739" target="_blank" rel="nofollow" title="doaj.org/article/45b1bc6790fc4e3ba3677cd88b67c739">doaj</a> </small>   <div id="more_7" style="display:none"><a href="/sci_redir.php?doi=10.1371%2Fjournal.pone.0013314" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1371/journal.pone.0013314'); alert('Copied the doi');">copy doi</a> <small>(10.1371/journal.pone.0013314)</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/cm.70080" target="_blank" rel="nofollow">The Influence of Drosophila Spire and Myosin V During Mid‐Oogenesis Is Independent of Their Direct Interaction</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Cytoskeleton, EarlyView.</i></span><br><span class="r_content">ABSTRACT Cooperativity between cytoskeletal proteins is crucial for spatiotemporal coordination in biological processes, like oogenesis. In mammalian and Drosophila oogenesis, proper assembly and function of actin networks require coordination between actin assembly factors Spire and formins, as well as actin‐associated proteins like myosins and Rab ...</span><br><span class="r_sub"><i>Joseph Y. Ong<span id="ma_8" style="display:none">, Hannah M. Bailey, Emma Carley, Michelle Panzica, Merin Rixen, Neil Billington, Rong Liu, Margot E. Quinlan</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_8')">+7 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/cm.70080?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/cm.70080?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small>   <div id="more_8" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fcm.70080" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/cm.70080'); alert('Copied the doi');">copy doi</a> <small>(10.1002/cm.70080)</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/dug2.70080" target="_blank" rel="nofollow">Research progress and current status of dynamic wave propagation characteristics in rock mass: A review</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Deep Underground Science and Engineering, EarlyView.</i></span><br><span class="r_content">This review elucidates the velocity–dispersion–attenuation coupling mechanisms of wave propagation in rock masses, compares six representative models, and reveals how pressure, temperature, mineral composition, and anisotropy jointly control dynamic responses in complex geological media.</span><br><span class="r_sub"><i>Jiajun Shu<span id="ma_9" style="display:none">, Tao Li, Ruiqi Yuan, Yue Li, Bingni Wu, Bo Liu, Zhengding Deng, Galindo Rubén, Fausto Molina‐Gómez</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_9')">+8 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/dug2.70080?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/dug2.70080?mi=2or9o2m&af=R&AllField=w. h. hudson&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small>   <div id="more_9" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fdug2.70080" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/dug2.70080'); alert('Copied the doi');">copy doi</a> <small>(10.1002/dug2.70080)</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://core.ac.uk/download/38824623.pdf" target="_blank" rel="nofollow">El canto de la tierra: W. H. Hudson y el estado natural</a> <b><a href="https://core.ac.uk/download/38824623.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">, 2004 </span><br><span class="r_content">Against the backdrop of the ecological crisis spawned by modern progress, literature has renewed its representations of the Golden Age and of the lost organic community. The anglo-argentine writer W. H.</span><br><span class="r_sub"><i>Bate, Jonathan</i></span><br><small><a href="https://core.ac.uk/works/22444009" target="_blank" rel="nofollow" title="core.ac.uk/works/22444009">core</a> </small>   <div id="more_10" style="display:none"><a href="http://revistas.ucm.es/index.php/ALHI/article/download/ALHI0404110015A/21948" target="_blank" rel="nofollow" title="revistas.ucm.es/index.php/ALHI/article/download/ALHI0404110015A/21948">revistas.ucm.es</a><br> <a href="https://core.ac.uk/download/185852647.pdf" target="_blank" rel="nofollow" title="core.ac.uk/download/185852647.pdf">core.ac.uk (pdf)</a><br> <a href="https://core.ac.uk/works/54104695" target="_blank" rel="nofollow" title="core.ac.uk/works/54104695">core.ac.uk</a><br></div><small><a href="#" onClick="return toggle_div(this, 'more_10')">+3 more sources</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-science/" class="suggestion"onclick="show_loader();"><b>science</b></a><br/><a href="/q-medicine/" class="suggestion"onclick="show_loader();"><b>medicine</b></a><br/><a href="/q-peer_review/" class="suggestion"onclick="show_loader();"><b>peer review</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-editorial/" class="suggestion"onclick="show_loader();"><b>editorial</b></a><br/></div></div></div><div class="pagenav"><a href="/q-w._h._hudson/p-4/" rel="nofollow"><b>previous</b></a>   <a href="/q-w._h._hudson/p-3/" rel="nofollow">3</a>  <a href="/q-w._h._hudson/p-4/" rel="nofollow">4</a>  <b>5</b>  <a href="/q-w._h._hudson/p-6/" rel="nofollow">6</a>  <a href="/q-w._h._hudson/p-7/" rel="nofollow">7</a>   <a href="/q-w._h._hudson/p-6/" id="next" rel="nofollow"><b>next</b></a> </div><br></div> </div> <script>document.getElementById('loadingGif').style.display='none';</script><div style="width: 100%; height: 40px; bottom: 0px; background-color: #f5f5f5;"><div style="padding-left: 15px; padding-top: 10px"> <a href="/" rel="nofollow">Home</a> - <a href="/page-about/" rel="nofollow">About</a> - <a href="/page-disclaimer/" rel="nofollow">Disclaimer</a> - <a href="/page-privacy/" rel="nofollow">Privacy</a> </div></div> <link rel="stylesheet" href="//ajax.googleapis.com/ajax/libs/jqueryui/1.11.4/themes/smoothness/jquery-ui.min.css"/> <script> (function(ss,ex){ window.ldfdr=window.ldfdr||function(){(ldfdr._q=ldfdr._q||[]).push([].slice.call(arguments));}; (function(d,s){ fs=d.getElementsByTagName(s)[0]; function ce(src){ var cs=d.createElement(s); cs.src=src; cs.async=1; fs.parentNode.insertBefore(cs,fs); }; ce('https://sc.lfeeder.com/lftracker_v1_'+ss+(ex?'_'+ex:'')+'.js'); })(document,'script'); })('JMvZ8gvrWA9a2pOd'); </script> </body> </html>