@misc{UmairMohsinAlietal., author = {Umair, Muhammad and Mohsin, Mashkoor and Ali, Qasim and Qamar, Muhammad U. and Raza, Shahbaz and Ali, Aamir and Guenther, Sebastian and Schierack, Peter}, title = {Prevalence and Genetic Relatedness of Extended Spectrum-ß-Lactamase-Producing Escherichia coli Among Humans, Cattle, and Poultry in Pakistan}, series = {Microbial drug resistance}, volume = {25}, journal = {Microbial drug resistance}, number = {9}, issn = {1931-8448}, doi = {10.1089/mdr.2018.0450}, pages = {1374 -- 1381}, language = {en} } @misc{KhanMushtaqSulemanetal., author = {Khan, Muhammad Moman and Mushtaq, Muhammad Ahmed and Suleman, Muhammad and Ahmed, Umer and Ashraf, Muhammad Faisal and Aslam, Rizwan and Mohsin, Mashkoor and R{\"o}diger, Stefan and Sarwar, Yasra and Schierack, Peter and Ali, Aamir}, title = {Fecal microbiota landscape of commercial poultry farms in Faisalabad, Pakistan : a 16S rRNA gene-based metagenomics study}, series = {Poultry science}, volume = {104}, journal = {Poultry science}, number = {6}, publisher = {Elsevier BV}, address = {Amsterdam}, issn = {0032-5791}, doi = {10.1016/j.psj.2025.105089}, pages = {1 -- 11}, abstract = {This study explores the microbiota of broiler and layer farms, aiming to understand how genetic breed, age, and farm type influence microbial communities in commercial settings. Fecal samples from 18 poultry farms (twelve layers and six broilers) in Faisalabad, Pakistan were analyzed using 16S rRNA gene sequencing of the V3-V4 region to evaluate bacterial composition. The dominant phylum, Firmicutes, accounted for 58.72 \% of the microbial population, with Lactobacillus being the most abundant genus in both broilers and layers. The total abundance of potentially pathogenic genera was also assessed with Enterococcus and Corynebacterium being the most prevalent across all farms, regardless of bird type. Layers exhibited greater microbial richness and diversity than broilers, while the Karachi cage system (KCS) farm type showed higher richness than Floor system (FS). Although the breed significantly influenced microbial diversity, age was not a determining factor. Co-occurrence analyses revealed close interactions among phyla (Actinobacteriota, Proteobacteria, Firmicutes, Fusobacteriota, and Bacteroidota) and genera (Lactobacillus, Brevibacterium, Enterococcus), suggesting their pivotal roles within the microbial community. Additionally, functional analysis detected important metabolic pathways and traced microbial signatures of key pathogenic bacteria, enhancing our understanding of microbial contributions to poultry health. Despite limitations such as the need for broader geographic sampling and accounting for diet and medication, this study advances microbiome research in Pakistan's poultry sector, emphasizing consistent taxa and opening avenues for future investigations into microbiome manipulations for improved food safety and achieve better sustainable practices.}, language = {en} } @misc{WajidAwanSaleemietal., author = {Wajid, Muhammad and Awan, Asad Bashir and Saleemi, Muhammad Kashif and Weinreich, J{\"o}rg and Schierack, Peter and Sarwar, Yasra and Ali, Aamir}, title = {Multiple Drug Resistance and Virulence Profiling of Salmonella enterica Serovars Typhimurium and Enteritidis from Poultry Farms of Faisalabad, Pakistan}, series = {Microbial Drug Resistance}, volume = {25}, journal = {Microbial Drug Resistance}, number = {1}, issn = {1931-8448}, doi = {10.1089/mdr.2018.0121}, pages = {133 -- 142}, language = {en} } @misc{FrickeMahmoodHoffmannetal., author = {Fricke, Florian and Mahmood, Safdar and Hoffmann, Javier Eduardo and Ali, Muhammad and Shahin, Keyvan and H{\"u}bner, Michael and G{\"o}hringer, Diana}, title = {Domain Adaptive Processor Architectures}, series = {Kommunikation und Bildverarbeitung in der Automation}, journal = {Kommunikation und Bildverarbeitung in der Automation}, isbn = {978-3-662-59895-5}, issn = {2522-8579}, doi = {10.1007/978-3-662-59895-5_23}, pages = {315 -- 330}, language = {en} } @misc{AliKolendaKhanetal., author = {Ali, Aamir and Kolenda, Rafał and Khan, Muhammad Moman and Weinreich, J{\"o}rg and Li, Ganwu and Wieler, Lothar H. and Tedin, Karsten and Roggenbuck, Dirk and Schierack, Peter}, title = {Novel Avian Pathogenic Escherichia coli Genes Responsible for Adhesion to Chicken and Human Cell Lines}, series = {Applied and Environmental Microbiology}, volume = {86}, journal = {Applied and Environmental Microbiology}, number = {20}, issn = {1098-5336}, doi = {10.1128/AEM.01068-20}, language = {en} } @misc{AliFuegenschuhGuptaetal., author = {Ali, Irfan and F{\"u}genschuh, Armin and Gupta, Srikant and Modibbo, Umar Muhammad}, title = {The LR-Type Fuzzy Multi-Objective Vendor Selection Problem in Supply Chain Management}, series = {Mathematics}, volume = {8}, journal = {Mathematics}, number = {9}, issn = {2227-7390}, doi = {10.3390/math8091621}, pages = {25}, language = {en} } @misc{BrandaleroVeleskiMunozHernandezetal., author = {Brandalero, Marcelo and Veleski, Mitko and Mu{\~n}oz-Hernandez, Hector Gerardo and Ali, Muhammad and Le Jeune, Laurens and Goedem{\´e}, Toon and Mentens, Nele and Vandendriessche, Jurgen and Lhoest, Lancelot and Da Silva, Bruno A. and Touhafi, Abdellah and Goehringer, Diana and H{\"u}bner, Michael}, title = {Embedded AI Techniques for Industrial Applications}, series = {31st International Conference on Field-Programmable Logic and Applications (FPL), Dresden, Germany, 30 August-3 September 2021}, journal = {31st International Conference on Field-Programmable Logic and Applications (FPL), Dresden, Germany, 30 August-3 September 2021}, publisher = {IEEE}, address = {Piscataway, NJ}, isbn = {978-1-6654-3759-2}, doi = {10.1109/FPL53798.2021.00071}, pages = {374 -- 375}, language = {en} } @misc{BrandaleroAliLeJeuneetal., author = {Brandalero, Marcelo and Ali, Muhammad and Le Jeune, Laurens and Munoz-Hernandez, Hector Gerardo and Veleski, Mitko and Silva, Bruno da and Lemeire, Jan and Van Beeck, Kristof and Touhafi, Abdellah and Goedem{\´e}, Toon and Mentens, Nele and G{\"o}hringer, Diana and H{\"u}bner, Michael}, title = {AITIA: Embedded AI Techniques for Industrial Applications}, series = {International Conference on Omni-Layer Intelligent Systems (COINS), 31 August-2 September 2020, Barcelona, Spain}, journal = {International Conference on Omni-Layer Intelligent Systems (COINS), 31 August-2 September 2020, Barcelona, Spain}, publisher = {IEEE}, address = {Piscataway, NJ}, isbn = {978-1-7281-6371-0}, doi = {10.1109/COINS49042.2020.9191672}, pages = {1 -- 7}, language = {en} } @misc{KhanSidorczukBeckeretal., author = {Khan, Muhammad Moman and Sidorczuk, Katarzyna and Becker, Juliane and Aleksandrowicz, Adrianna and Baraniewicz, Karolina and Ludwig, Christina and Ali, Aamir and Kingsley, Robert A. and Schierack, Peter and Kolenda, Rafał}, title = {Characterization of clumpy adhesion of Escherichia coli to human cells and associated factors influencing antibiotic sensitivity}, series = {Microbiology Spectrum}, journal = {Microbiology Spectrum}, issn = {2165-0497}, doi = {10.1128/spectrum.02606-23}, abstract = {Escherichia coli intestinal infection pathotypes are characterized by distinct adhesion patterns, including the recently described clumpy adhesion phenotype. Here, we identify and characterize the genetic factors contributing to the clumpy adhesion of E. coli strain 4972. In this strain, the transcriptome and proteome of adhered bacteria were found to be distinct from planktonic bacteria in the supernatant. A total of 622 genes in the transcriptome were differentially expressed in bacteria present in clumps relative to the planktonic bacteria. Seven genes targeted for disruption had variable distribution in different pathotypes and nonpathogenic E. coli, with the pilV and spnT genes being the least frequent or absent from most groups. Deletion (Δ) of five differentially expressed genes, flgH, ffp, pilV, spnT, and yggT, affected motility, adhesion, or antibiotic stress. ΔflgH exhibited 80\% decrease and ΔyggT depicted 184\% increase in adhesion, and upon complementation, adhesion was significantly reduced to 13\%. ΔflgH lost motility and was regenerated when complemented, whereas Δffp had significantly increased motility, and reintroduction of the same gene reduced it to the wild-type level. The clumps produced by Δffp and ΔspnT were more resistant and protected the bacteria, with ΔspnT showing the best clump formation in terms of ampicillin stress protection. ΔyggT had the lowest tolerance to gentamicin, where the antibiotic stress completely eliminated the bacteria. Overall, we were able to investigate the influence of clump formation on cell surface adhesion and antimicrobial tolerance, with the contribution of several factors crucial to clump formation on susceptibility to the selected antibiotics.}, language = {en} } @misc{NazAhmadSarwaretal., author = {Naz, Fizza and Ahmad, Abrar and Sarwar, Yasra and Khan, Muhammad Moman and Schierack, Peter and Rauf, Waqar and Ali, Aamir}, title = {Characterization of Salmonella enterica Biofilms and Antibiofilm Effect of Carvacrol and 2-Aminobenzimidazole}, series = {Foodborne Pathogens and Disease}, volume = {21}, journal = {Foodborne Pathogens and Disease}, number = {1}, publisher = {Mary Ann Liebert Inc.}, issn = {1535-3141}, doi = {10.1089/fpd.2023.0044}, pages = {52 -- 60}, language = {en} } @misc{JavedKhanMichalketal., author = {Javed, Ali Javed and Khan, Naveed Ahmad and Michalk, Silke and Khan, Noor Ullah and Kamran, Muhammad}, title = {High-Performance Work System and Innovation Capabilities: The Mediating Role of Intellectual Capital}, series = {Administrativ Science}, volume = {13}, journal = {Administrativ Science}, number = {1}, issn = {2076-3387}, doi = {10.3390/admsci13010023}, pages = {1 -- 19}, abstract = {This study examined the effect of high-performance work systems on developing incremental and radical innovation capabilities. Drawing on resource-based and knowledge-based theories, the mediating effects of human capital, social capital, and organizational capital were tested. Data were collected from 233 middle-to-senior level managers working in the banking sector of Pakistan, and hypotheses were tested through partial least squares structural equation modeling using Smart PLS 4.0. The findings showed that all components of intellectual capital mediated the relationship to develop both types of innovation capabilities. In terms of the strength of the relationship, social capital was found to be a more effective mediator, and next to this were human capital and organizational capital, respectively. Our findings contribute to the existing literature by explaining the relationship between HPWS and innovation capabilities, which is also referred to as the black box through the mediation of intellectual capital. Decision makers should recognize the importance of this relationship because it develops innovation capabilities that enhance organizational performance by giving them a competitive advantage.}, language = {en} } @misc{KhanAliKolendaetal., author = {Khan, Muhammad Moman and Ali, Aamir and Kolenda, Rafał and Olowe, Olugbenga Adekunle and Weinreich, J{\"o}rg and Li, Ganwu and Schierack, Peter}, title = {The role of AJB35136 and fdtA genes in biofilm formation by avian pathogenic Escherichia coli}, series = {BMC Veterinary Research}, volume = {19}, journal = {BMC Veterinary Research}, issn = {1746-6148}, doi = {10.1186/s12917-023-03672-7}, language = {en} } @misc{BuchananLewisParisetal., author = {Buchanan, Erin M. and Lewis, Savannah C. and Paris, Bastien and Forscher, Patrick S. and Pavlacic, Jeffrey M. and Beshears, Julie E. and Drexler, Shira Meir and Gourdon-Kanhukamwe, Am{\´e}lie and Mallik, Peter R and Silan, Miguel Alejandro A. and Miller, Jeremy K. and IJzerman, Hans and Moshontz, Hannah and Beaudry, Jennifer L. and Suchow, Jordan W. and Chartier, Christopher R. and Coles, Nicholas A. and Sharifian, MohammadHasan and Todsen, Anna Louise and Levitan, Carmel A. and Azevedo, Fl{\´a}vio and Legate, Nicole and Heller, Blake and Rothman, Alexander J. and Dorison, Charles A. and Gill, Brian P. and Wang, Ke and Rees, Vaughan W. and Gibbs, Nancy and Goldenberg, Amit and Thi Nguyen, Thuy-vy and Gross, James J. and Kaminski, Gwena{\^e}l and von Bastian, Claudia C. and Paruzel-Czachura, Mariola and Mosannenzadeh, Farnaz and Azouaghe, Soufian and Bran, Alexandre and Ruiz-Fernandez, Susana and Santos, Anabela Caetano and Reggev, Niv and Zickfeld, Janis H. and Akkas, Handan and Pantazi, Myrto and Ropovik, Ivan and Korbmacher, Max and Arriaga, Patr{\´i}cia and Gjoneska, Biljana and Warmelink, Lara and Alves, Sara G. and de Holanda Coelho, Gabriel Lins and Stieger, Stefan and Schei, Vidar and Hanel, Paul H. P. and Szaszi, Barnabas and Fedotov, Maksim and Antfolk, Jan and Marcu, Gabriela-Mariana and Schr{\"o}tter, Jana and Kunst, Jonas R. and Geiger, Sandra J. and Adetula, Adeyemi and Kocalar, Halil Emre and Kielińska, Julita and Kačm{\´a}r, Pavol and Bokkour, Ahmed and Galindo-Caballero, Oscar J. and Djamai, Ikhlas and P{\"o}ntinen, Sara Johanna and AGESIN, Bamikole Emmanuel and Jerns{\"a}ther, Teodor and Urooj, Anum and Rachev, Nikolay R. and Koptjevskaja-Tamm, Maria and Kurfal{\i}, Murathan and Pit, Ilse L. and Li, Ranran and {\c{C}}oksan, Sami and Dubrov, Dmitrii and Paltrow, Tamar Elise and Ban{\´i}k, Gabriel and Korobova, Tatiana and Studzinska, Anna and Jiang, Xiaoming and Aruta, John Jamir Benzon R. and Vintr, J{\´a}chym and Chiu, Faith and Kaliska, Lada and Berkessel, Jana B. and T{\"u}mer, Murat and Morales-Izquierdo, Sara and Chuan-Peng, Hu and Vezirian, Kevin and Rosa, Anna Dalla and Bialobrzeska, Olga and Vasilev, Martin R. and Beitner, Julia and K{\´a}cha, Ondřej and Žuro, Barbara and Westerlund, Minja and Nedelcheva-Datsova, Mina and Findor, Andrej and Krupić, Dajana and Kowal, Marta and Askelund, Adrian Dahl and Pourafshari, Razieh and Đorđević, Jasna Milošević and Schmidt, Nadya-Daniela and Baklanova, Ekaterina and Szala, Anna and Zakharov, Ilya and Vranka, Marek A. and Ihaya, Keiko and Grano, Caterina and Cellini, Nicola and Białek, Michał and Anton-Boicuk, Lisa and Dalgar, Ilker and Ad{\i}g{\"u}zel, Arca and Verharen, Jeroen P. H. and Maturan, Princess Lovella G. and Kassianos, Angelos P. and Oliveira, Raquel and Čadek, Martin and Adoric, Vera Cubela and {\"O}zdoğru, Asil Ali and Sverdrup, Therese E. and Aczel, Balazs and Zambrano, Danilo and Ahmed, Afroja and Tamnes, Christian K. and Yamada, Yuki and Volz, Leonhard and Sunami, Naoyuki and Suter, Lilian and Vieira, Luc and Groyecka-Bernard, Agata and Kamburidis, Julia Arhondis and Reips, Ulf-Dietrich and Harutyunyan, Mikayel and Adetula, Gabriel Agboola and Allred, Tara Bulut and Barzykowski, Krystian and Antazo, Benedict G and Zsido, Andras N. and Šakan, Dušana Dušan and Cyrus-Lai, Wilson and Ahlgren, Lina Pernilla and Hruška, Matej and Vega, Diego and Manunta, Efisio and Mokady, Aviv and Capizzi, Mariagrazia and Martončik, Marcel and Say, Nicolas and Filip, Katarzyna and Vilar, Roosevelt and Staniaszek, Karolina and Vdovic, Milica and Adamkovic, Matus and Johannes, Niklas and Hajdu, Nandor and Cohen, Noga and Overkott, Clara and Krupić, Dino and Hubena, Barbora and Nilsonne, Gustav and Mioni, Giovanna and Solorzano, Claudio Singh and Ishii, Tatsunori and Chen, Zhang and Kushnir, Elizaveta and Karaarslan, Cemre and Ribeiro, Rafael R. and Khaoudi, Ahmed and Kossowska, Małgorzata and Bavolar, Jozef and Hoyer, Karlijn and Roczniewska, Marta and Karababa, Alper and Becker, Maja and Monteiro, Renan P. and Kunisato, Yoshihiko and Metin-Orta, Irem and Adamus, Sylwia and Kozma, Luca and Czarnek, Gabriela and Domurat, Artur and Štrukelj, Eva and Alvarez, Daniela Serrato and Parzuchowski, Michal and Massoni, S{\´e}bastien and Czamanski-Cohen, Johanna and Pronizius, Ekaterina and Muchembled, Fany and van Schie, Kevin and Sa{\c{c}}akl{\i}, Asl{\i} and Hristova, Evgeniya and Kuzminska, Anna O. and Charyate, Abdelilah and Bijlstra, Gijsbert and Afhami, Reza and Majeed, Nadyanna M. and Musser, Erica D. and Sirota, Miroslav and Ross, Robert M. and Yeung, Siu Kit and Papadatou-Pastou, Marietta and Foroni, Francesco and Almeida, In{\^e}s A. T. and Grigoryev, Dmitry and Lewis, David M. G. and Holford, Dawn L. and Janssen, Steve M. J. and Tatachari, Srinivasan and Batres, Carlota and Olofsson, Jonas K. and Daches, Shimrit and Belaus, Anabel and Pfuhl, Gerit and Corral-Frias, Nadia Sarai and Sousa, Daniela and R{\"o}er, Jan Philipp and Isager, Peder Mortvedt and Godbersen, Hendrik and Walczak, Radoslaw B. and Van Doren, Natalia and Ren, Dongning and Gill, Tripat and Voracek, Martin and DeBruine, Lisa M. and Anne, Michele and Očovaj, Sanja Batić and Thomas, Andrew G. and Arvanitis, Alexios and Ostermann, Thomas and Wolfe, Kelly and Arinze, Nwadiogo Chisom and Bundt, Carsten and Lamm, Claus and Calin-Jageman, Robert J and Davis, William E. and Karekla, Maria and Zorjan, Saša and Jaremka, Lisa M. and Uttley, Jim and Hricova, Monika and Koehn, Monica A and Kiselnikova, Natalia and Bai, Hui and Krafnick, Anthony J. and Balci, Busra Bahar and Ballantyne, Tonia and Lins, Samuel and Vally, Zahir and Esteban-Serna, Celia and Schmidt, Kathleen and Macapagal, Paulo Manuel L. and Szwed, Paulina and Zdybek, Przemysław Marcin and Moreau, David and Collins, W. Matthew and Joy-Gaba, Jennifer A. and Vilares, Iris and Tran, Ulrich S. and Boudesseul, Jordane and Albayrak-Aydemir, Nihan and Dixson, Barnaby James Wyld and Perillo, Jennifer T and Ferreira, Ana and Westgate, Erin C. and Aberson, Christopher L. and Arinze, Azuka Ikechukwu and Jaeger, Bastian and Butt, Muhammad Mussaffa and Silva, Jaime R. and Storage, Daniel Shafik and Janak, Allison P and Jim{\´e}nez-Leal, William and Soto, Jose A. and Sorokowska, Agnieszka and McCarthy, Randy and Tullett, Alexa M and Frias-Armenta, Martha and Ribeiro, Matheus Fernando Felix and Hartanto, Andree and Forbes, Paul A. G. and Willis, Megan L. and del Carmen Tejada R, Mar{\´i}a and Torres, Adriana Julieth Olaya and Stephen, Ian D and Vaidis, David C. and de la Rosa-G{\´o}mez, Anabel and Yu, Karen and Sutherland, Clare A. M. and Manavalan, Mathi and Behzadnia, Behzad and Urban, Jan and Baskin, Ernest and McFall, Joseph P. and Ogbonnaya, Chisom Esther and Fu, Cynthia H. Y. and Rahal, Rima-Maria and Ndukaihe, Izuchukwu L. G. and Hostler, Thomas J. and Kappes, Heather Barry and Sorokowski, Piotr and Khosla, Meetu and Lazarevic, Ljiljana B. and Eudave, Luis and Vilsmeier, Johannes K. and Luis, Elkin O. and Muda, Rafał and Agadullina, Elena and C{\´a}rcamo, Rodrigo A. and Reeck, Crystal and Anjum, Gulnaz and Venegas, M{\´o}nica Camila Toro and Misiak, Michal and Ryan, Richard M. and Nock, Nora L. and Travaglino, Giovanni A. and Mensink, Michael C. and Feldman, Gilad and Wichman, Aaron L. and Chou, Weilun and Ziano, Ignazio and Seehuus, Martin and Chopik, William J. and Kung, Franki Y. H. and Carpentier, Joelle and Vaughn, Leigh Ann and Du, Hongfei and Xiao, Qinyu and Lima, Tiago J. S. and Noone, Chris and Onie, Sandersan and Verbruggen, Frederick and Radtke, Theda and Primbs, Maximilian A.}, title = {The psychological science accelerator's COVID-19 rapid-response dataset}, series = {Scientific Data}, volume = {10}, journal = {Scientific Data}, number = {1}, publisher = {Springer Science and Business Media LLC}, issn = {2052-4463}, doi = {10.1038/s41597-022-01811-7}, pages = {1 -- 15}, language = {en} } @misc{MunozHernandezAliShahinetal., author = {Mu{\~n}oz-Hernandez, Hector Gerardo and Ali, Muhammad and Shahin, Keyvan and Siyavashi, Alireza and G{\"o}hringer, Diana and Reichenbach, Marc and Herglotz, Christian and H{\"u}bner, Michael}, title = {Towards complete open-source environments : FPGA-based GPU overlay controlled by RISC-V}, series = {Architecture of computing systems : 38th International Conference, ARCS 2025 Kiel, Germany, April 22-24, 2025, proceedings}, journal = {Architecture of computing systems : 38th International Conference, ARCS 2025 Kiel, Germany, April 22-24, 2025, proceedings}, publisher = {Springer}, address = {Berlin}, isbn = {978-3-032-03280-5}, issn = {0302-9743}, doi = {https://doi.org/10.1007/978-3-032-03281-2_7}, pages = {94 -- 108}, abstract = {Image and signal processing applications have been widely implemented in Field Programmable Gate Arrays (FPGAs) and Graphical Processing Units (GPUs) due to their energy efficiency and performance, respectively. GPUs provide high data processing parallelism and are usually chosen to accelerate applications where low energy consumption is not a high priority. On the other hand, FPGAs are more tailored to hardware solutions due to their reconfigurability, but they struggle to outperform GPUs in data throughput. Soft IP cores implemented on reconfigurable hardware, are an alternative offering advantages from both worlds. Some of these soft-core solutions offer an entire environment that includes scripts to automate their implementation, custom compilers, and other diverse tools. Unfortunately, some of these soft-cores are dependent on proprietary Intellectual Property (IP) or require hardware expertise to use properly. In this work, we propose an extended version of a popular open-source soft GPU, which can now run alongside a soft RISC-V core, and with High-Bandwidth memory (HBM2) compatibility. Previously, this soft GPU was only ready to be deployed in boards with a hard ARM core, but now it can be easily used in FPGAs without this requirement. We also provide an evaluation of how the soft GPU performs with respect to the pure RISC-V core, and a hard ARM core achieving geometric mean speed-ups of 114.60x and 19.72x respectively when performing some image and signal processing applications. Finally, we demonstrate how our soft GPU benefits from the HBM integration.}, language = {en} } @misc{BuchananCuccoloHeymanetal., author = {Buchanan, Erin M. and Cuccolo, Kelly and Heyman, Tom and van Berkel, Niels and Coles, Nicholas A. and Iyer, Aishwarya and Peters, Kim and van 't Veer, A. E. and Montefinese, Maria and Maxwell, Nicholas P. and Taylor, Jack E. and Valentine, Kathrene D. and Arriaga, Patr{\´i}cia and Barzykowski, Krystian and Boucher, Leanne and Collins, W. Matthew and Vaidis, David C. and Aczel, Balazs and Al-Hoorie, Ali H. and Ambrosini, Ettore and Besson, Th{\´e}o and Burin, Debora I. and Butt, Muhammad Mussaffa and Clarke, A. J. Benjamin and Daryani, Yalda and El-Dakhs, Dina Abdel Salam and Elsherif, Mahmoud M. and Fern{\´a}ndez-L{\´o}pez, Maria and Ferreira, Paulo Roberto dos Santos and Freitag, Raquel Meister Ko and Gattei, Carolina A. and Godbersen, Hendrik and Grim, Philip A. and Halama, Peter and Havan, Patrik and Irrazabal, Natalia C. and Isloi, Chris and Iversen, Rebecca Kvisler and Julliard, Yoann and Karaaslan, Aslan and Koh{\´u}t, Michal and Koh{\´u}tov{\´a}, Veronika and Kos, Julija and Kosachenko, Alexandra I. and Lima, Tiago Jess{\´e} Souza de and Mak, Matthew H. C. and Manouilidou, Christina and Marciaga, Leonardo A. and Melinna, Xiaolin Melinna and Miranda, Jacob Francisco and Morvinski, Coby and Muppoor, Aishwarya and M{\"u}jdeci, F. Elif and Nielsen, Yngwie A. and Oliveros, Juan Carlos and Onič, Jaš and Papadatou-Pastou, Marietta and Patel, Ishani and Pavlović, Zoran and Pažon, Blaž and Pfuhl, Gerit and Pronizius, Ekaterina and Roettger, Timo B. and Ronderos, Camilo R. and Ruiz-Fernandez, Susana and Senderecka, Magdalena}, title = {Measuring the semantic priming effect across many languages}, series = {Nature human behaviour}, volume = {10}, journal = {Nature human behaviour}, number = {1}, publisher = {Springer Science and Business Media LLC}, address = {London}, issn = {2397-3374}, doi = {10.1038/s41562-025-02254-x}, pages = {182 -- 201}, abstract = {Semantic priming has been studied for nearly 50 years across various experimental manipulations and theoretical frameworks. Although previous studies provide insight into the cognitive underpinnings of semantic representations, they have suffered from small sample sizes and a lack of linguistic and cultural diversity. In this Registered Report, we measured the size and the variability of the semantic priming effect across 19 languages (n = 25,163 participants analysed) by creating the largest available database of semantic priming values using an adaptive sampling procedure. We found evidence for semantic priming in terms of differences in response latencies between related word-pair conditions and unrelated word-pair conditions. Model comparisons showed that the inclusion of a random intercept for language improved model fit, providing support for variability in semantic priming across languages. This study highlights the robustness and variability of semantic priming across languages and provides a rich, linguistically diverse dataset for further analysis. The Stage 1 protocol for this Registered Report was accepted in principle on 15 July 2022. The protocol, as accepted by the journal, can be found at https://osf.io/u5bp6 (registration) or https://osf.io/q4fjy (preprint version 6, 31 May 2022).}, language = {en} }