Publicaciones recientes

Weitzel J; MA Rodrigo; A Arnal; et al; H Schubert. 2025. Transnational efforts for the conservation of reproductively diverse taxa. 310989 - Rostocker Meeresbiologische Beiträge.  Universität Rostock.  34:31-43.
Carabal N.; E. Puche; S. Armenta; P. García-Atienza; M.A. Rodrigo.  2025.  Constructed wetlands for the mitigation of pesticide and heavy metal concentrations in a protected agrolandscape: removal efficiencies and ecological risk assessment. 901502 - Science of the Total Environment. 1001-180466. https://doi.org/10.1016/j.scitotenv.2025.180466
Rodrigo MA; Puche E; Muñoz-Colmenares M; Sánchez-Carrillo S. 2025. Vascular macrophytes versus charophytes: how the macrophyte type and warming affect the sediment microbial community and the production of greenhouse gases. 901485 - Journal of Environmental Management. 386-125654. https://doi.org/10.1016/j.jenvman.2025.125654.
Puche, E.; Roger, B.; Vargas-Sánchez, M.; Sánchez-Carrillo, S.; Rodrigo, M.A. 2025. Freshwater macrophyte type (macroalgae versus phanerogams) mainly determines detritus-derived greenhouse gases production: A microcosm experiment. 904805 - Journal of Environmental Sciences. 157:674-689. https://doi.org/10.1016/j.jes.2025.01.015
Arnal A.; M.A. Rodrigo; K.-G. Bernhardt; et al; P. García-Murillo. 2025. A review on the distribution and habitat features of Chara canescens in the Iberian Peninsula: sexual populations revisited. 916566 - Limnetica. 44(1), pp.141-158. https://doi.org/10.23818/limn.44.10.
Arnal; A.; P. García-Murillo; M.A. Rodrigo; A. Troia; B. Turner; H. Schubert. 2024. Chara canescens: un alga única en Europa. 000357 - Quercus. 457, pp.22-27.
Puche, E.; D. Cruz; P. Delgado; J. Rosinska; M.A. Rodrigo. 2024. Changes in submerged macrophyte diversity, coverage and biomass in a biosphere reserve site after 20 years: A plea for conservation efforts. 901098 - Biological Conservation. 294-110607. https://doi.org/10.1016/j.biocon.2024.110607.
Rybak M.; J. Rosinska; Ł. Wejnerowski; M.A. Rodrigo; T. Joniak. 2024. Submerged macrophyte self-recovery potential behind restoration treatments: sources of failure. 917674 - Frontiers In Plant Science. 15-1421448. https://doi.org/10.3389/fpls.2024.1421448.
Carabal N.; L.S. Cardoso; J. Padisák; G.B. Selmeczy; E. Puche; M.A. Rodrigo. 2024. How a constructed wetland within a natural park enhances plankton communities after more than 10 years of operation: Changes over space and time. 901471 - Environmental Research. Elsevier. 120114. https://doi.org/10.1016/ j.envres.2024.120114.
Rodrigo M.A.; Brończyk A.; M. Pełechaty.  2024.  In memory of Prof. Dr. Andrzej Pukacz (1979-2023).  310989 - Rostocker Meeresbiologische Beiträge. Universität Rostock. 33, pp.6-25.
Rodrigo M.A.; E. Puche; C. Salcedo; B. Murcia; A. Pukacz; Y. Picó; C. Rojo. 2024.  Charophyceae and polyphenols: the influence of global change stressors.  310989 - Rostocker Meeresbiologische Beiträge. Universität Rostock. 33, pp.52-69. 
Carabal N.; S. Segura; E. Puche; C. Rojo; M.A. Rodrigo. 2023.  How the diversity of constructed wetlands improves the plankton communities discharged into a protected Mediterranean wetland. 901957 - Hydrobiologia. Springer. ISSN 0018-8158. https://doi.org/10.1007/s10750-023-05331-2.
Rodrigo, M.A.; Puche, E.; Cruz, D.; Delgado, P.; Mosqueda, I. 2023. La vegetación sumergida del Parque Natural de las Lagunas de Ruidera. 000357 - Quercus. 450, pp.38-44. ISSN 0212-0054.
Carabal N.; E. Puche; M.A. Rodrigo.  2023.  Los Humedales Artificiales como depuradoras naturales y generadores de biodiversidad.  000357 - Quercus. 454, pp.28-34. ISSN 0212-0054.
Iriarte E., Revelles J., Finsinger W., Mesquita-Joanes F., Rodrigo M.A., Burjachs F., Expósito I., Martí Molist J., Planagumà Ll., Alcalde G., Saá M. 2023. Youngest Iberian Holocene volcanic eruptions and paleoenvironmental evolution of a barrier-paleolake in the Garrotxa Volcanic Field (NE Spain). The Holocene, 33-8,  pp.939-959. DOI: 10.1177/09596836231169989.
Revelles J., Martí Molist J., Burjachs F., Finsinger W., Iriarte E., Mesquita-Joanes F., Pla-Rabés S., Planagumà Ll., Rodrigo M.A., Alcalde G., Saá M. 2023. Socio-ecological impact of monogenetic volcanism in the La Garrotxa Volcanic Field (NE Iberia). Scientific Reports 13:8168. DOI: 10.1038/s41598-023-35072-0.
Rodrigo M.A., Armenta S., Esteve-Turrillas F.A., Jiménez J., Juan F. 2022. Two constructed wetlands within a Mediterranean natural park immersed in an agrolandscape reduce most heavy metal water concentrations and dampen the majority of pesticide presence. Environmental Science and Pollution Research. DOI: 10.21203/rs.3.rs-1492955/v1.
Calero S. & Rodrigo M.A. 2022. A quantitative method to analyse the sexual development of charophytes (Charophyceae): a baseline for phenological studies. Phycologia 61(4): 354-362. DOI: 10.1080/00318884.2022.2047489.
Rodrigo M.A. 2021. Wetland Restoration with Hydrophytes: A Review. Plants-Basel 10:1035.
Puche E.; Jordán F.; Rodrigo M.A.; Rojo C. 2020. Non-trophic key players in aquatic ecosystems: a mesocosm experiment. Oikos 129: 1714-1726.
Rodrigo M.A.; Carabal N. 2020. Selecting submerged macrophyte species for replanting in Mediterranean eutrophic wetlands. Global Ecology and Conservation 24: e01349.
Rodrigo M.A.; Segura M. 2020. Plankton participation in the performance of three constructed wetlands within a Mediterranean natural park. Science of the Total Environment 721: 137766. DOI: 10.1016/j.scitotenv.2020.137766.
Rojo C.; Sánchez-Carrillo S.; Rodrigo M.A.; Puche E.; Cirujano S.; Álvarez-Cobelas M. 2020. Charophyte stoichiometry in temperate waters. Aquatic Botany 161. DOI:10.1016/j.aquabot.2019.103182.
Puche E.; Rojo C.; Ramos-Jiliberto R.; Rodrigo M.A. 2020. Structure and vulnerability of the multi-interaction network in macrophyte-dominated lakes. Oikos 129: 35-48. DOI: 10.1111/oik.06694.
Calero S. & Rodrigo M.A. 2019. Reproductive phenology of submerged macrophytes: A tracker of year-to-year environmental variations. Journal of Vegetation Science DOI: 10.1111/jvs.12801.
Cirujano S. & Rodrigo M.A. 2019. Revisión del herbario de Eduardo Reyes Prósper y tipificación de tres especies de carófitos (Charophyceae, Characeae) presentes en el mismo. Anales del Jardín Botánico de Madrid 76.
Calero S. & Rodrigo M.A. 2019. Germination capability of four charophyte populations (Characeae) from Mediterranean brackish ponds under warm experimental conditions. Webbia (https://doi.org/10.1080/00837792.2019.1608419).
Rojo C., Puche E. & Rodrigo M.A. 2019. The antagonistic effect of UV radiation on warming or nitrate enrichment depends on ecotypes of freshwater macroalgae (Charophytes). Journal of Phycology (DOI: 10.1111/jpy.12859).
Rodrigo M.A. & Calero S. 2018. Phenology of macrophytes in coastal environments: Utricularia australis (R. Br.) and Stuckenia pectinata (L.) Börner in an interdunal pond within the Albufera de València Natural Park. Limnetica 38(1): 317-334 (DOI: 10.23818/limn.38.05).
Puche E., Sánchez-Carrillo S., Álvarez-Cobelas M., Pukacz A., Rodrigo M.A. & Rojo C. 2018. Overabundant nitrate and warmer temperature effects on charophytes: the role of plasticity and local adaptation. Aquatic Botany 146: 15-22 (https://doi.org/10.1016/j.aquabot.2018.01.003).
Calero S., Morellato L.P.C. & Rodrigo M.A. 2018. Persistence of submerged macrophytes in a drying world: unravelling the timing and the environmental drivers to produce drought-resistant propagules. Aquatic Conservation: Marine and Freshwater Ecosystems 28: 894-909 (DOI: 10.1002/aqc.2879).
Rodrigo M.A., Claros J., Lassalle M., Moreno L., Segura M., Valentín A. & Vera P. 2017. Assessing the effect of emergent vegetation in a surface-flow constructed wetland on eutrophication reversion and biodiversity enhancement. Ecological Engineering 113: 74-87. (http://dx.doi.org/10.1016/j.ecoleng.2017.11.021).
Calero S. & Rodrigo M.A. 2017. The life cycle of a parthenogenetic population of Chara canescens from an interdunal Mediterranean pond. Botany Letters 165(1): 55-65 (http://dx.doi.org/10.1080/23818107.2017.1383308).
Rodrigo M.A., Puche E. & Rojo C. 2017. On the tolerance of charophytes to high nitrate concentrations. Chemistry and Ecology 34: 22-42 (http://dx.doi.org/10.1080/02757540.2017.1398237).
Hernández-Crespo C., Gargallo S., Benedito-Durá V., Nácher-Rodríguez B., Rodrigo M.A.& Martín M. 2017. Performance of surface and subsurface flow constructed wetlands treating eutrophic waters. Science of the Total Environment 595: 584-593.
Rojo C., Carramiñana M., Cáceres D., Roberts G.P., Puche E., Calero S. & Rodrigo M.A. 2017. Different responses of coexisting Chara species to foreseeable Mediterranean temperature and salinity increases. Aquatic Botany 138: 53-63 (DOI: 10.1016/j.aquatbot.2017.01.003).
Calero S., Auderset Joye D., Rey-Boissezon A. & Rodrigo M.A. 2017. Time and heat for sexual reproduction: comparing the phenology of Chara hispida of two populations at different latitudes. Aquatic Botany 136: 71-81.
Rodrigo M.A., Alonso-Guillén J.L. 2016. Charophyte flora within a Ramsar Mediterranean wetland (Albufera de València Natural Park, Spain) in the period 2007-2010. Botanica Serbica 40(2): 205-215.
Rodrigo M.A., García A. & Chivas A.R. 2016. Carbon stable isotope composition of charophyte organic matter in a small and shallow Spanish water body as a baseline for future trophic studies. Journal of Limnology 75: 226-235.
Calero S., Colom W. & Rodrigo M.A. 2015. The phenology of wetland submerged macrophytes related to environmental factors. Limnetica 34: 425-438.
Puche E. & Rodrigo M.A. 2015. Increased water salinity negatively affects charophytes from a spring created within the Albufera de València Natural Park. Limnetica 34: 349-364.
Rojo C., Martínez-Ruiz C., Carramiñana M. & Rodrigo M.A. 2015. Foreseeable Global Warming will differentially affect Chara vulgaris populations from different altitudes. Aquatic Botany 122: 20-26.
Calero S., Segura M., Rojo C. & Rodrigo M.A. 2015. Shifts in plankton assemblages promoted by free water surface constructed wetlands and their implications in eutrophication remediation. Ecological Engineering 74: 385-393.
Rubio F., Rojo C., Núñez-Olivera E. & Rodrigo M.A. 2015. Effects of UVB radiation exposure from the molecular to the organism level in macrophytes from shallow Mediterranean habitats. Aquatic Botany S.I. 120: 112-120.
Rodrigo M.A., Rojo C., Segura M., Alonso-Guillén J.L., Martín M. & Vera P. 2015. The role of charophytes in a Mediterranean pond created for restoration purposes. Aquatic Botany S.I. 120: 101-111.
Rodrigo M.A., Alonso-Guillén J.L. 2013. Assessing the potential of Albufera de València Lagoon sediments for the restoration of charophyte meadows. Ecological Engineering 60: 445-452.
Rodrigo M.A., Martín M., Rojo C., Gargallo S., Segura M. & Oliver N. 2013. The role of eutrophication reduction of two small man-made Mediterranean lagoons in the context of a broader remediation system: effects on water quality and plankton contribution. Ecological Engineering 61: 371-382.
Rojo C., Segura M., Cortés F. & Rodrigo M.A. 2013. Allelopathic effects of microcystin-LR on the germination, growth and metabolism of five charophyte species and a submerged angiosperm. Aquatic Toxicology 144-145: 1-10.
Angeler D.G., Allen C.R., Rojo C., Álvarez-Cobelas M., Rodrigo M.A. & Sánchez-Carrillo S. 2013. Inferring the relative resilience of alternative states. PLOS ONE, 8(10), e77338; doi:10.1371/journal.pone.0077338.
Rojo C., Segura M. & Rodrigo M.A. 2013. The allelopathic capacity of submerged macrophytes shapes the microalgal assemblages from a recently restored coastal wetland. Ecological Engineering 58: 149-155.
Rodrigo M.A., Rojo C., Alonso-Guillén & Vera, P. 2013. Restoration of two small Mediterranean lagoons: the dynamics of submerged macrophytes and factors that affect the success of revegetation. Ecological Engineering 54: 1-15.
Rojo C., Herrera G, Rodrigo M.A., Ortiz-Llorente M.J. & Carrillo, P. 2012. Mixotrophic phytoplankton is enhanced by UV radiation in a low altitude, P-limited Mediterranean lake. Hydrobiologia 698: 97-110.
Rojo C., Álvarez-Cobelas M., Benavent-Corai J., Barón-Rodríguez M.M. & Rodrigo M.A. 2012. Trade-offs in plankton species richness arising from drought: insights from long-term data of a National Park wetland (central Spain). Biodiversity and Conservation 21: pags.2453-2476.
Sendra J., Rubio, F. & Rodrigo M.A. 2010. Are there any effects of enhanced UV-B radiation on Chara polyacantha and Nitella hyalina under laboratory conditions? Rostocker Meeresbiologische Beiträge 23: 7-20.
Rojo C. & Rodrigo M.A. 2010. Plankton ecology and diversity. pp: 137-173. En: Ecology of threatened semi-arid wetlands. Long-term research in Las Tablas de Daimiel. Eds: S. Sánchez-Carrillo & D.G. Angeler. Springer.
Rojo C, Baron-Rodriguez MM, Alvarez-Cobelas M and Rodrigo M.A. 2010. Sustained primary production with changing phytoplankton assemblages in a semiarid wetland. Hydrobiologia 639: 55-62.
Rodrigo MA, Alonso-Guillen JL, Soulie-Marsche I. 2010. Reconstruction of the former charophyte community out of the fructifications identified in Albufera de Valencia lagoon sediments. Aquatic Botany 92: 14-22.
D’Auria G., Barón-Rodríguez, M,M, Durbán-Vicente, A., Moya, A., Rojo, C. Latorre, A. and Rodrigo, M.A. 2010. Unravelling the bacterial diversity found in the semi-arid Tablas de Daimiel National Park wetland (Central Spain). Aquatic Microbial Ecology 59:33-44.
Rojo, C; Segura, M., Rodrigo, M.A.; Salazar, G. 2009. Factors controlling the colonial structure of Pediastrum tetras (Chlorophyceae). Hydrobiologia 617:143-155.
Rojo, C; Rodrigo, M.A.; Salazar, G.; Álvarez-Cobelas, M. 2008. Nitrate uptake rates in freshwater plankton: the effect of food web structure. Marine and Freshwater Research 59: 717- 725.
Angeler, D.G., Sánchez-Carrillo, S., Rodrigo, M. A., Álvarez-Cobelas, M. y Rojo, C. 2007. Does seston size structure reflect fish-mediated effects on water quality in a degraded semiarid wetland? Environmental Monitoring and Assessment 125:9-17.
Rodrigo, M. A., Rojo, C., Álvarez-Cobelas, M. y Cirujano, S. 2007. Chara hispida beds as a sink of nitrogen: Evidence from growth, nitrogen uptake and decomposition. Aquatic Botany 87: 7-14.
Rodrigo, M.A., Rojo, C., Segura, M. y Larrosa, J.. 2007. Mechanisms of microalgae selection during the assembly of a planktonic community. Aquatic Ecology. DOI 10.1007/s10452-007-9143-x.
Larrosa, J., S.M. Mayeli, E. Mangas-Ramírez, M.A. Rodrigo y C. Rojo. 2006. Alternative final states when Daphnia magna invades a system with Keratella cochlearis. Arch. Hydrobiol. 166:289-305.
Álvarez-Cobelas M., Baltanás, A., J.L. Velasco y C. Rojo. 2006. Zooplankton dynamics during autumn circulation in a small, wind- sheltered, Mediterranean lake. Marine & Freshwater Research 57: 441- 452.
Rojo, C., M.A., Rodrigo & M. Álvarez-Cobelas. 2006. Plankton diversity is the outcome of an assembly process. Verh. Internat. Verein. Limnol. 29 (3).
Álvarez-Cobelas, M., S. Cirujano, C. Rojo, M.A. Rodrigo, E. Piña y E. Montero. 2006 Effects of changing rainfall on the limnology of a Mediterranean, flowthrough-seepage chain of lakes. Int. Rev. Hydrobiol. 91:466-482.
Piña-Ochoa, E., Álvarez-Cobelas, M., Rodrigo, M.A., Rojo, C. y Delgado, A. 2006. Nitrogen sedimentation in a lake affected by massive nitrogen inputs: auotchthonus versus allochthonus effects. Freshwater Biology 51:2228-2239.
Álvarez-Cobelas, M., Rojo, C., Velasco, JL. y Baltanás, A. 2006. Factors controlling planktonic size spectral responses to autumnal circulation in a Mediterranean lake. Freshwater Biology 51: 131-143.
Alvarez-Cobelas, M., C. Rojo, J.L. Velasco & A. Baltanás. 2005. Factors controlling planktonic size spectral responses to autumnal circulation in a Mediterranean lake. Freshwater Biology 51: 131-143 .
Angeler, D.G. Sánchez-Carrillo, M.A. Rodrigo, O. Viedma y M. Álvarez-Cobelas 2005. On the importance of water depth, macrophytes and fish in wetland picocyanobacteria regulation. Hydrobiologia 549: 23-32.
Bort, S., C. Rojo, M.A. Rodrigo & N. Maidana. 2005. El fitoplancton de las lagunas de Ruidera (Parque Natural, Ciudad Real). Limnetica 24:33-46.
Lionard, M., E. Ortega Mayagoitia & C. Rojo. 2005. Evolución del fitoplancton en el parque Nacional de Las Tablas de Daimiel (Ciudad Real, 1996-2001). Limnetica 24:171-182.
Álvarez-Cobelas, M. C. Rojo & D. Angeler. 2005. Mediterranean limnology: current status, gaps, and the future. Journal of Limnology 64:13-29.
Conforti, V., Lionard, M., Segura, M. & Rojo, C. 2005. Las Euglenófitas en Las Tablas de Daimiel como ejemplo de las limitaciones de los indicadores biológicos de la degradación ambiental. Anales del Jardín Botánico de Madrid 62(2): 163-179.
Alvarez-Cobelas, M., Velasco, J.L., Valladolid, M., Baltanás, A. and Rojo, C. 2005. Daily patterns of mixing and nutrient concentrations during early autumn circulation in a small sheltered lake. Freshwater Biology 50:813-829.
Rojo, C. 2004. Self-organization of plankton communities: a test of freshwater restoration. In: Assembly rules and restoration Ecology. (Hobbs, R., Temperton, V. and Fattorini, M., eds.) 2004 Island Press (Washington DC).
Marco-Noales, E., Biosca, E., Rojo, C. & Amaro, C. 2004. Influence of aquatic microbiota on the survival in water of the human and eel pathogen Vibrio vulnificus serovar E. Environmental Microbiology 6:364-375.
Angeler D. & M.A. Rodrigo. 2004. Ramp disturbance-ramp response: a simple model for wetland disturbance ecology. Marine and Freshwater Research 55: 33-37.
Ortega-Mayagoitia, E., C. Rojo y M.A. Rodrigo. 2003. Controlling factors of phytoplankton taxonomic structure in wetlands: an experimental approach. Hydrobiologia 502: 177-186.
Rodrigo, M.A., C. Rojo y M. Álvarez-Cobelas. 2003. Autotrophic and heterotrophic picoplankton in wetlands: differences with lake patterns. Internat. Rev. Hydrobiol. 88:464-481.
Rodrigo, M.A., C. Rojo y X. Armengol. 2003. Plankton biodiversity in a landscape of shallow water bodies (Mediterranean coast, Spain). Hydrobiologia 506-509: 317-326.
Rojo, C. 2003. Steady state in phytoplankton assemblages. Hydrobiologia 502: 3-12.