Your search keyword '"Roman, Jose Raul"' showing total 5 results

1. Towards large scale biocrust restoration: Producing an efficient and low-cost inoculum of N-fixing cyanobacteria

Author

Roncero-Ramos, Beatriz, Román, José Raúl, Acién, Gabriel, and Cantón, Yolanda

Published

2022

2. Global urban environmental change drives adaptation in white clover

Author

Santangelo, James S., Ness, Rob W., Cohan, Beata, Fitzpatrick, Connor R., Innes, Simon G., Koch, Sophie, Miles, Lindsay S., Munim, Samreen, Peres-Neto, Pedro R., Prashad, Cindy, Tong, Alex T., Aguirre, Windsor E., Akinwole, Philips O., Alberti, Marina, Alvarez, Jackie, Anderson, Jill T., Anderson, Joseph J., Ando, Yoshino, Andrew, Nigel R., Angeoletto, Fabio, Anstett, Daniel N., Anstett, Julia, Aoki-Goncalves, Felipe, Arietta, A. Z. Andis, Arroyo, Mary T. K., Austen, Emily J., Baena-Diaz, Fernanda, Barker, Cory A., Baylis, Howard A., Beliz, Julia M., Benitez-Mora, Alfonso, Bickford, David, Biedebach, Gabriela, Blackburn, Gwylim S., Boehm, Mannfred M. A., Bonser, Stephen P., Bonte, Dries, Bragger, Jesse R., Branquinho, Cristina, Brans, Kristien, I, Bresciano, Jorge C., Brom, Peta D., Bucharova, Anna, Burt, Briana, Cahill, James F., Campbell, Katelyn D., Carlen, Elizabeth J., Carmona, Diego, Castellanos, Maria Clara, Centenaro, Giada, Chalen, Izan, Chaves, Jaime A., Chavez-Pesqueira, Mariana, Chen, Xiao-Yong, Chilton, Angela M., Chomiak, Kristina M., Cisneros-Heredia, Diego F., Cisse, Ibrahim K., Classen, Aimee T., Comerford, Mattheau S., Fradinger, Camila Cordoba, Corney, Hannah, Crawford, Andrew J., Crawford, Kerri M., Dahirel, Maxime, David, Santiago, De Haan, Robert, Deacon, Nicholas J., Dean, Clare, Del-Val, Ek, Deligiannis, Eleftherios K., Denney, Derek, Dettlaff, Margarete A., DiLeo, Michelle F., Ding, Yuan-Yuan, Dominguez-Lopez, Moises E., Dominoni, Davide M., Draud, Savannah L., Dyson, Karen, Ellers, Jacintha, Espinosa, Carlos, I, Essi, Liliana, Falahati-Anbaran, Mohsen, Falcao, Jessica C. F., Fargo, Hayden T., Fellowes, Mark D. E., Fitzpatrick, Raina M., Flaherty, Leah E., Flood, Padraic J., Flores, Maria F., Fornoni, Juan, Foster, Amy G., Frost, Christopher J., Fuentes, Tracy L., Fulkerson, Justin R., Gagnon, Edeline, Garbsch, Frauke, Garroway, Colin J., Gerstein, Aleeza C., Giasson, Mischa M., Girdler, E. Binney, Gkelis, Spyros, Godsoe, William, Golemiec, Anneke M., Golemiec, Mireille, Gonzalez-Lagos, Cesar, Gorton, Amanda J., Gotanda, Kiyoko M., Granath, Gustaf, Greiner, Stephan, Griffiths, Joanna S., Grilo, Filipa, Gundel, Pedro E., Hamilton, Benjamin, Hardin, Joyce M., He, Tianhua, Heard, Stephen B., Henriques, Andre F., Hernandez-Poveda, Melissa, Hetherington-Rauth, Molly C., Hill, Sarah J., Hochuli, Dieter F., Hodgins, Kathryn A., Hood, Glen R., Hopkins, Gareth R., Hovanes, Katherine A., Howard, Ava R., Hubbard, Sierra C., Ibarra-Cerdena, Carlos N., Iniguez-Armijos, Carlos, Jara-Arancio, Paola, Jarrett, Benjamin J. M., Jeannot, Manon, Jimenez-Lobato, Vania, Johnson, Mae, Johnson, Oscar, Johnson, Philip P., Johnson, Reagan, Josephson, Matthew P., Jung, Meen Chel, Just, Michael G., Kahilainen, Aapo, Kailing, Otto S., Karinho-Betancourt, Eunice, Karousou, Regina, Kirn, Lauren A., Kirschbaum, Anna, Laine, Anna-Liisa, LaMontagne, Jalene M., Lampei, Christian, Lara, Carlos, Larson, Erica L., Lazaro-Lobo, Adrian, Le, Jennifer H., Leandro, Deleon S., Lee, Christopher, Lei, Yunting, Leon, Carolina A., Tamara, Manuel E. Lequerica, Levesque, Danica C., Liao, Wan-Jin, Ljubotina, Megan, Locke, Hannah, Lockett, Martin T., Longo, Tiffany C., Lundholm, Jeremy T., MacGillavry, Thomas, Mackin, Christopher R., Mahmoud, Alex R., Manju, Isaac A., Marien, Janine, Martinez, D. Nayeli, Martinez-Bartolome, Marina, Meineke, Emily K., Mendoza-Arroyo, Wendy, Merritt, Thomas J. S., Merritt, Lila Elizabeth L., Migiani, Giuditta, Minor, Emily S., Mitchell, Nora, Bazargani, Mitra Mohammadi, Moles, Angela T., Monk, Julia D., Moore, Christopher M., Morales-Morales, Paula A., Moyers, Brook T., Munoz-Rojas, Miriam, Munshi-South, Jason, Murphy, Shannon M., Murua, Maureen M., Neila, Melisa, Nikolaidis, Ourania, Njunji, Iva, Nosko, Peter, Nunez-Farfan, Juan, Ohgushi, Takayuki, Olsen, Kenneth M., Opedal, Oystein H., Ornelas, Cristina, Parachnowitsch, Amy L., Paratore, Aaron S., Parody-Merino, Angela M., Paule, Juraj, Paulo, Octavio S., Pena, Joao Carlos, Pfeiffer, Vera W., Pinho, Pedro, Piot, Anthony, Porth, Ilga M., Poulos, Nicholas, Puentes, Adriana, Qu, Jiao, Quintero-Vallejo, Estela, Raciti, Steve M., Raeymaekers, Joost A. M., Raveala, Krista M., Rennison, Diana J., Ribeiro, Milton C., Richardson, Jonathan L., Rivas-Torres, Gonzalo, Rivera, Benjamin J., Roddy, Adam B., Rodriguez-Munoz, Erika, Roman, Jose Raul, Rossi, Laura S., Rowntree, Jennifer K., Ryan, Travis J., Salinas, Santiago, Sanders, Nathan J., Santiago-Rosario, Luis Y., Savage, Amy M., Scheepens, J. F., Schilthuizen, Menno, Schneider, Adam C., Scholier, Tiffany, Scott, Jared L., Shaheed, Summer A., Shefferson, Richard P., Shepard, Caralee A., Shykoff, Jacqui A., Silveira, Georgianna, Smith, Alexis D., Solis-Gabriel, Lizet, Soro, Antonella, Spellman, Katie, V, Whitney, Kaitlin Stack, Starke-Ottich, Indra, Stephan, Jorg G., Stephens, Jessica D., Szulc, Justyna, Szulkin, Marta, Tack, Ayco J. M., Tamburrino, Italo, Tate, Tayler D., Tergemina, Emmanuel, Theodorou, Panagiotis, Thompson, Ken A., Threlfall, Caragh G., Tinghitella, Robin M., Toledo-Chelala, Lilibeth, Tong, Xin, Uroy, Lea, Utsumi, Shunsuke, Vandegehuchte, Martijn L., VanWallendael, Acer, Vidal, Paula M., Wadgymar, Susana M., Wang, Ai-Ying, Wang, Nian, Warbrick, Montana L., Whitney, Kenneth D., Wiesmeier, Miriam, Wiles, J. Tristian, Wu, Jianqiang, Xirocostas, Zoe A., Yan, Zhaogui, Yao, Jiahe, Yoder, Jeremy B., Yoshida, Owen, Zhang, Jingxiong, Zhao, Zhigang, Ziter, Carly D., Zuellig, Matthew P., Zufall, Rebecca A., Zurita, Juan E., Zytynska, Sharon E., Johnson, Marc T. J., Santangelo, James S., Ness, Rob W., Cohan, Beata, Fitzpatrick, Connor R., Innes, Simon G., Koch, Sophie, Miles, Lindsay S., Munim, Samreen, Peres-Neto, Pedro R., Prashad, Cindy, Tong, Alex T., Aguirre, Windsor E., Akinwole, Philips O., Alberti, Marina, Alvarez, Jackie, Anderson, Jill T., Anderson, Joseph J., Ando, Yoshino, Andrew, Nigel R., Angeoletto, Fabio, Anstett, Daniel N., Anstett, Julia, Aoki-Goncalves, Felipe, Arietta, A. Z. Andis, Arroyo, Mary T. K., Austen, Emily J., Baena-Diaz, Fernanda, Barker, Cory A., Baylis, Howard A., Beliz, Julia M., Benitez-Mora, Alfonso, Bickford, David, Biedebach, Gabriela, Blackburn, Gwylim S., Boehm, Mannfred M. A., Bonser, Stephen P., Bonte, Dries, Bragger, Jesse R., Branquinho, Cristina, Brans, Kristien, I, Bresciano, Jorge C., Brom, Peta D., Bucharova, Anna, Burt, Briana, Cahill, James F., Campbell, Katelyn D., Carlen, Elizabeth J., Carmona, Diego, Castellanos, Maria Clara, Centenaro, Giada, Chalen, Izan, Chaves, Jaime A., Chavez-Pesqueira, Mariana, Chen, Xiao-Yong, Chilton, Angela M., Chomiak, Kristina M., Cisneros-Heredia, Diego F., Cisse, Ibrahim K., Classen, Aimee T., Comerford, Mattheau S., Fradinger, Camila Cordoba, Corney, Hannah, Crawford, Andrew J., Crawford, Kerri M., Dahirel, Maxime, David, Santiago, De Haan, Robert, Deacon, Nicholas J., Dean, Clare, Del-Val, Ek, Deligiannis, Eleftherios K., Denney, Derek, Dettlaff, Margarete A., DiLeo, Michelle F., Ding, Yuan-Yuan, Dominguez-Lopez, Moises E., Dominoni, Davide M., Draud, Savannah L., Dyson, Karen, Ellers, Jacintha, Espinosa, Carlos, I, Essi, Liliana, Falahati-Anbaran, Mohsen, Falcao, Jessica C. F., Fargo, Hayden T., Fellowes, Mark D. E., Fitzpatrick, Raina M., Flaherty, Leah E., Flood, Padraic J., Flores, Maria F., Fornoni, Juan, Foster, Amy G., Frost, Christopher J., Fuentes, Tracy L., Fulkerson, Justin R., Gagnon, Edeline, Garbsch, Frauke, Garroway, Colin J., Gerstein, Aleeza C., Giasson, Mischa M., Girdler, E. Binney, Gkelis, Spyros, Godsoe, William, Golemiec, Anneke M., Golemiec, Mireille, Gonzalez-Lagos, Cesar, Gorton, Amanda J., Gotanda, Kiyoko M., Granath, Gustaf, Greiner, Stephan, Griffiths, Joanna S., Grilo, Filipa, Gundel, Pedro E., Hamilton, Benjamin, Hardin, Joyce M., He, Tianhua, Heard, Stephen B., Henriques, Andre F., Hernandez-Poveda, Melissa, Hetherington-Rauth, Molly C., Hill, Sarah J., Hochuli, Dieter F., Hodgins, Kathryn A., Hood, Glen R., Hopkins, Gareth R., Hovanes, Katherine A., Howard, Ava R., Hubbard, Sierra C., Ibarra-Cerdena, Carlos N., Iniguez-Armijos, Carlos, Jara-Arancio, Paola, Jarrett, Benjamin J. M., Jeannot, Manon, Jimenez-Lobato, Vania, Johnson, Mae, Johnson, Oscar, Johnson, Philip P., Johnson, Reagan, Josephson, Matthew P., Jung, Meen Chel, Just, Michael G., Kahilainen, Aapo, Kailing, Otto S., Karinho-Betancourt, Eunice, Karousou, Regina, Kirn, Lauren A., Kirschbaum, Anna, Laine, Anna-Liisa, LaMontagne, Jalene M., Lampei, Christian, Lara, Carlos, Larson, Erica L., Lazaro-Lobo, Adrian, Le, Jennifer H., Leandro, Deleon S., Lee, Christopher, Lei, Yunting, Leon, Carolina A., Tamara, Manuel E. Lequerica, Levesque, Danica C., Liao, Wan-Jin, Ljubotina, Megan, Locke, Hannah, Lockett, Martin T., Longo, Tiffany C., Lundholm, Jeremy T., MacGillavry, Thomas, Mackin, Christopher R., Mahmoud, Alex R., Manju, Isaac A., Marien, Janine, Martinez, D. Nayeli, Martinez-Bartolome, Marina, Meineke, Emily K., Mendoza-Arroyo, Wendy, Merritt, Thomas J. S., Merritt, Lila Elizabeth L., Migiani, Giuditta, Minor, Emily S., Mitchell, Nora, Bazargani, Mitra Mohammadi, Moles, Angela T., Monk, Julia D., Moore, Christopher M., Morales-Morales, Paula A., Moyers, Brook T., Munoz-Rojas, Miriam, Munshi-South, Jason, Murphy, Shannon M., Murua, Maureen M., Neila, Melisa, Nikolaidis, Ourania, Njunji, Iva, Nosko, Peter, Nunez-Farfan, Juan, Ohgushi, Takayuki, Olsen, Kenneth M., Opedal, Oystein H., Ornelas, Cristina, Parachnowitsch, Amy L., Paratore, Aaron S., Parody-Merino, Angela M., Paule, Juraj, Paulo, Octavio S., Pena, Joao Carlos, Pfeiffer, Vera W., Pinho, Pedro, Piot, Anthony, Porth, Ilga M., Poulos, Nicholas, Puentes, Adriana, Qu, Jiao, Quintero-Vallejo, Estela, Raciti, Steve M., Raeymaekers, Joost A. M., Raveala, Krista M., Rennison, Diana J., Ribeiro, Milton C., Richardson, Jonathan L., Rivas-Torres, Gonzalo, Rivera, Benjamin J., Roddy, Adam B., Rodriguez-Munoz, Erika, Roman, Jose Raul, Rossi, Laura S., Rowntree, Jennifer K., Ryan, Travis J., Salinas, Santiago, Sanders, Nathan J., Santiago-Rosario, Luis Y., Savage, Amy M., Scheepens, J. F., Schilthuizen, Menno, Schneider, Adam C., Scholier, Tiffany, Scott, Jared L., Shaheed, Summer A., Shefferson, Richard P., Shepard, Caralee A., Shykoff, Jacqui A., Silveira, Georgianna, Smith, Alexis D., Solis-Gabriel, Lizet, Soro, Antonella, Spellman, Katie, V, Whitney, Kaitlin Stack, Starke-Ottich, Indra, Stephan, Jorg G., Stephens, Jessica D., Szulc, Justyna, Szulkin, Marta, Tack, Ayco J. M., Tamburrino, Italo, Tate, Tayler D., Tergemina, Emmanuel, Theodorou, Panagiotis, Thompson, Ken A., Threlfall, Caragh G., Tinghitella, Robin M., Toledo-Chelala, Lilibeth, Tong, Xin, Uroy, Lea, Utsumi, Shunsuke, Vandegehuchte, Martijn L., VanWallendael, Acer, Vidal, Paula M., Wadgymar, Susana M., Wang, Ai-Ying, Wang, Nian, Warbrick, Montana L., Whitney, Kenneth D., Wiesmeier, Miriam, Wiles, J. Tristian, Wu, Jianqiang, Xirocostas, Zoe A., Yan, Zhaogui, Yao, Jiahe, Yoder, Jeremy B., Yoshida, Owen, Zhang, Jingxiong, Zhao, Zhigang, Ziter, Carly D., Zuellig, Matthew P., Zufall, Rebecca A., Zurita, Juan E., Zytynska, Sharon E., and Johnson, Marc T. J.

Abstract

Urbanization transforms environments in ways that alter biological evolution. We examined whether urban environmental change drives parallel evolution by sampling 110,019 white clover plants from 6169 populations in 160 cities globally. Plants were assayed for a Mendelian antiherbivore defense that also affects tolerance to abiotic stressors. Urban-rural gradients were associated with the evolution of clines in defense in 47% of cities throughout the world. Variation in the strength of clines was explained by environmental changes in drought stress and vegetation cover that varied among cities. Sequencing 2074 genomes from 26 cities revealed that the evolution of urban-rural dines was best explained by adaptive evolution, but the degree of parallel adaptation varied among cities. Our results demonstrate that urbanization leads to adaptation at a global scale.

Published

2022

3. Development of cyanobacterial application methods for soil protection and restoration: case studies in Australian drylands

Author

Jiménez-González, Marco A, Roman, Jose Raul, Canton, Yolanda, Almendros, Gonzalo, Chilton, Angela M, Muñoz-Rojas, Miriam, Munoz-Rojas, Miriam ; https://orcid.org/0000-0002-9746-5191, Jiménez-González, Marco A, Roman, Jose Raul, Canton, Yolanda, Almendros, Gonzalo, Chilton, Angela M, Muñoz-Rojas, Miriam, and Munoz-Rojas, Miriam ; https://orcid.org/0000-0002-9746-5191

Abstract

Land degradation, as a result of increased soil erosion and loss of fertility among other factors, is currently one of the most serious environmental problems. In recent years, the role of cyanobacteria from soil biocrusts in re-establishing soil function of degraded areas is gaining interest due to the potential of these organisms for soil stabilization and increase of soil fertility. In order to fully exploit the use of cyanobacteria in large-scale restoration of degraded lands, new approaches that facilitate their application must be explored in order to face with the harsh abiotic conditions of these environments. In this presentation, we showcase two different methods for the inoculation of cyanobacteria from soil biocrust in degraded soils of Australian dryland ecosystems: i) direct inoculation of cyanobacteria cultures and ii) incorporation of cyanobacteria within extruded pellets. Three soil native cyanobacterial strains from two representative N-fixing genera (Nostoc and Scytonema) and a non-heterocystous filamentous genus (Leptolyngbya) previously collected from the Pilbara region (north-west Western Australia), were used as inoculum. Then, in a multifactorial microcosm experiment under laboratory conditions, we evaluated the survival and establishment of the cyanobacteria for both methods. For the direct inoculation, cultures of isolated cyanobacteria and a mixture of them were applied as a liquid inoculum directly into a degraded soil from the Pilbara. In the case of application using extruded pellets, fresh cultures of each strain alone and an equal mixed of them were added into a substrate composed of commercial bentonite powder and sand (1:10 weight ratio). The composed solution was extruded through a jerky gun with an extruder nozzle into pellets (1 cm diameter x 2 cm length) and dried at 30oC for 24h. Pellets were then placed on the surface of three different degraded soils representative of Australian drylands

Published

2020

4. Development of cyanobacterial application methods for soil protection and restoration: case studies in Australian drylands

Author

Jiménez-González, Marco A., primary, Roman, Jose Raul, additional, Canton, Yolanda, additional, Almendros, Gonzalo, additional, Chilton, Angela M., additional, and Muñoz-Rojas, Miriam, additional

Published

2020

5. Cyanobacteria pelletization: a biotechnological tool to restore arid degraded soils.

Author

Roman, Jose Raul, Chilton, Angela, Canton, Yolanda, and Muñoz-Rojas, Miriam

Subjects

*ARID soils, *PELLETIZING, *CYANOBACTERIA, *MINE waste, *MINE soils, *BENTONITE

Abstract

The role of cyanobacteria from soil biocrusts in re-establishing soil functionality of degraded land is gaining interest in recent years because of their critical role in enhancing soil fertility and preventing erosion. In order to fully exploit this biotechnological tool in large-scale restoration, the development of approaches that facilitates effective cyanobacterial application must be explored in order to face with harsh abiotic conditions. In this study, we propose an innovative technology to address these challenges by incorporating cyanobacteria cultures within extruded pellets. Three soil native cyanobacteria from two representative N-fixing genera (Nostoc and Scytonema) and a non-heterocystous filamentous genus (Leptolyngbya) were collected from the Pilbara region (north-west Western Australia), isolated, and cultured in BG11 medium (1). Fresh cultures of each strain alone and an equal mixed of them were added into a substrate composed of commercial bentonite powder and sand (1:10 weight ratio). The composed solution was extruded through a jerky gun with an extruder nozzle into pellets (1 cm diameter x 2 cm length) and dried at 30°C for 24h. Then, in a multifactorial microcosms experiment under laboratory conditions, we evaluated the survival and establishment of the cyanobacteria pellets over three soil substrates : a mine waste from an active mine site in the Pilbara region, a degraded soil from the Cobar Peneplain (New South Wales), and a soil from the Simpson Strzelecki Dunefields (South Australia). Chlorophyll a, soil spectral response and cyanobacteria coverage were periodically measured as a surrogate of cyanobacterial establishment, whereas soils exopolysaccharides and soil micro-aggregates were measured in order to assess biocrust influence in soil aggregation (2). Preliminary results showed that pellets dissolved completely and colonize almost the entire Petri dish surface in all treatments. Furthermore, Chlorophyll a maintained constant on inoculated samples during the study period, suggesting that cyanobacteria survived the pelleting process. Overall, our results showed that cyanobacteria can be successfully incorporated into extruded pellets, and quickly colonize and modify properties of degraded soil substrates. This technology is ready for further testing and refining through field trials, opening a wide range of opportunities to face with large scale restoration programs. References(1) Munoz-Rojas et al. 2018. Sci. Total Environ. 636, pp. 1149 - 1154. https://doi.org/10.1016/j.scitotenv.2018.04.265(2) Román et al. 2018. Land Degrad. Dev. pp. 1 - 10. https://doi.org/10.1002/ldr.3064 [ABSTRACT FROM AUTHOR]

Published

2019