9 martxoa, 2020
Published by BC3Research Maria Jose Sanz Mikel González-Eguino Stefano Balbi Marta Olazabal Unai Pascual Teresa Gimeno Sérgio H. Faria Anil Markandya Jorge Curiel Agustín del Prado Aline Chiabai Asun Rodríguez Jorge Moreno Xaquín García Silvestre Garcia Bosco Lliso Elisa Sainz de Murieta Maria del Mar Sola Iratxe Rubio Ainhoa Magrach Ignacio Palomo Alevgul Sorman at 9 martxoa, 2020
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Basque Centre for Climate Change: Klima Aldaketa Ikergai ikerketa zentroak Radio Euskadiko (EITB) “Hágase la Luz” irratsaioarekin asteroko kolaborazio berri bat hasi du. Larrialdi klimatikoarekin bate egiten duten gai desberdinak ikertzen dira BC3n eta astero gai hauek landuko dira hamar minututiko elkarrizketetan. Igandero 7.00-8.00 bitartean Hágase la Luz saioan.
25 martxoa, 2020
Published by BC3Research Iratxe Rubio at 25 martxoa, 2020
There is broad evidence of climate change causing shifts in fish distribution worldwide, but less is known about the response of fisheries to these changes. Responses to climate‐driven shifts in a fishery may be constrained by existing management or institutional arrangements and technological settings. In order to understand how fisheries are responding to ocean warming, we investigate purse seine fleets targeting tropical tunas in the east Atlantic Ocean using effort and sea surface temperature anomaly (SSTA) data from 1991 to 2017.
26 martxoa, 2020
Published by BC3Research Iratxe Rubio at 26 martxoa, 2020
Arrantzalekuek ozeanoen berotzeari nola erantzuten dioten ulertzeko,CIM-University of Vigoko Future Oceans Lab, Basque Centre for Climate Change (BC3), CSIRO eta Marine Support ikertzaileek Ozeano Atlantikoko txerrikien jardueraren banaketa ikertu zuten. Argitalpen berriak atun tropikalaren arrantzaren espazio-joerak erakusten ditu erdialdeko eta ekialdeko Ozeano Atlantikoan, eta flotaren jarduera ekuatoretik hegoalderantz mugitu zela egiaztatzen du (1991-2017).
14 apirila, 2020
Published by Teresa Gimeno BC3Research at 14 apirila, 2020
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Atmospheric carbon dioxide enrichment (eCO2) can enhance plant carbon uptake and growth, thereby providing an important negative feedback to climate change by slowing the rate of increase of the atmospheric CO2 concentration. Although evidence gathered from young aggrading forests has generally indicated a strong CO2 fertilization effect on biomass growth, it is unclear whether mature forests respond to eCO2 in a similar way.