🎤 Starting today, we’ll be unveiling our stellar lineup of speakers for our flagship event "Limenet Opening" this #September. This event marks a major milestone for us, celebrating the completion and functionality of our new plant, designed to capture 200kg/h of carbon dioxide after 1.5 years Limenet was born. 🔬We’re excited to feature Daniela Basso, Professor at the Università degli Studi di Milano-Bicocca. Daniela will address #ocean acidification, focusing on the beneficial impacts of BOAE on marine biota. Her presentation will cover the chemical stability of dissolved calcium bicarbonates and the effectiveness of CO2 storage, as well as the biological effects of the Limenet pilot plant treatment on marine organisms, with a special focus on planktonic and benthic species. #ClimateChange #ClimateDefender #CDR #Innovation
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Coalition of National, Regional and International Societies at Plant, crop and agricultural and environmental sciences.
International team cracks genomic code for earliest forms of terrestrial plant life An international team has sequenced the genomes of Zygnema algae, the closest relatives of land plants. This breakthrough illuminates how early plants adapted to terrestrial environments 550 million years ago, paving the way for all land-based life, including humans. The findings offer insights into plant evolution and potential applications in bioenergy and climate resilience. https://buff.ly/3WPoRdX via @university-of-nebraska-lincoln #PlantScience #PlantSci #Science #Plants #bioenergy #ClimateChange Image: Mammillaria sp. on a petri dish. Prague, Czech Republic. Credit: Juandev / Wikimedia
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The article, named "Unraveling the ecological mechanisms of Aluminum on microbial community succession in epiphytic biofilms on Vallisneria natans leaves: Novel insights from microbial interactions", was published in Journal of Hazardous Materials. 🧬This study conducted a mesocosm experiment aimed at elucidating the impact of different #aluminum (Al) concentrations on microbial communities in epiphytic biofilms on Vallisneria natans. The shift in keystone taxa with increasing Al concentration pointed to alterations in the functional dynamics of microbial communities. 🧬This study highlights the critical need to control appropriate concentration Al concentrations to preserve microbial diversity, sustain ecological functions, and enhance lake remediation in aquatic ecosystems. BMKGENE provided #16S and #18S amplicon sequencing services for this study. 💡 #AmpliconSequencing #AquaticEcosystems #EpiphyticBiofilm
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International team cracks genomic code for earliest forms of terrestrial plant life An international team has sequenced the genomes of Zygnema algae, the closest relatives of land plants. This breakthrough illuminates how early plants adapted to terrestrial environments 550 million years ago, paving the way for all land-based life, including humans. The findings offer insights into plant evolution and potential applications in bioenergy and climate resilience. https://buff.ly/3WPoRdX via @university-of-nebraska-lincoln #PlantScience #PlantSci #Science #Plants #bioenergy #ClimateChange Image: Mammillaria sp. on a petri dish. Prague, Czech Republic. Credit: Juandev / Wikimedia
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The article, named "Unraveling the ecological mechanisms of Aluminum on microbial community succession in epiphytic biofilms on Vallisneria natans leaves: Novel insights from microbial interactions", was published in Journal of Hazardous Materials. 🧬This study conducted a mesocosm experiment aimed at elucidating the impact of different #aluminum (Al) concentrations on microbial communities in epiphytic biofilms on Vallisneria natans. The shift in keystone taxa with increasing Al concentration pointed to alterations in the functional dynamics of microbial communities. 🧬This study highlights the critical need to control appropriate concentration Al concentrations to preserve microbial diversity, sustain ecological functions, and enhance lake remediation in aquatic ecosystems. BMKGENE provided #16S and #18S amplicon sequencing services for this study. 💡 #AmpliconSequencing #AquaticEcosystems #EpiphyticBiofilm
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🔍 The article, named "Unraveling the ecological mechanisms of Aluminum on microbial community succession in epiphytic biofilms on Vallisneria natans leaves: Novel insights from microbial interactions", was published in Journal of Hazardous Materials. 🧬This study conducted a mesocosm experiment aimed at elucidating the impact of different #aluminum (Al) concentrations on microbial communities in epiphytic biofilms on Vallisneria natans. The shift in keystone taxa with increasing Al concentration pointed to alterations in the functional dynamics of microbial communities. 🧬This study highlights the critical need to control appropriate concentration Al concentrations to preserve microbial diversity, sustain ecological functions, and enhance lake remediation in aquatic ecosystems. 💡 BMKGENE provided #16S and #18S amplicon sequencing services for this study. #AmpliconSequencing #AquaticEcosystems #EpiphyticBiofilm #BMKGENE
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Autonomous and precise, the EDAPHOLOG Soil Insect Sensor was designed to tackle the complex challenges of monitoring soil biodiversity and biological quality. 🐜 EDAPHOLOG's soil extractor measures insect diversity, abundance, and biomass, calculating the Soil Biological Quality Index (QBS-ar). Watch the video to see how EDAPHOLOG combines traditional methods with AI for precise soil insights that will help empower your farm.👇 Explore more here: https://lnkd.in/gHZTAcND Vasileios P. Vasileiadis, PhD #SustainableAgriculture #SoilHealth #FarmTech #AgriculturalInnovation
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Half of all biomass on earth is in the ocean- lots of polysaccharides. I am proud to report that my group is now tackling molecular marine Glycobiology using synthetic glycans as tools
❗ Algae capture #CO2 and release part of it as a sugary slime that remains on the sea floor for centuries. Scientists from our institute, MARUM - Center for Marine Environmental Sciences, University of Bremen; and the Max Planck Institute for Marine Microbiology have synthesized this sugar component (#fucoidan) and mimicked what happens in marine ecosystems in the lab.🌊 They found that fucoidan is more widespread in nature than previously thought, and envision it becoming a valid ally against #greenhouse gas emissions. ➡️ https://lnkd.in/dgmaHSWx Conor Crawford, Mikkel Schultz-Johansen, Phuong Luong, Silvia Vidal Melgosa, Jan-Hendrik Hehemann, and Peter Seeberger Journal of the American Chemical Society #carbon #climate #glycobiology #marineBiology
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Blue-green algae get a bad press – but we owe a debt of gratitude Blue-green algae, or cyanobacteria, come in many forms and have generally got a bad press, mainly because five of the 2,000 identified species can produce some of the deadliest toxins known to science. At the same time, they are among the oldest organisms in the world, dating back 2.1bn years, and we owe them a debt of gratitude. Cyanobacteria were the first organisms to use photosynthesis, turning carbon dioxide into oxygen. They are responsible for creating the oxygen-rich atmosphere that enabled life on Earth to flourish and humans to evolve. More info at https://lnkd.in/gc4HRpAz #algae #algaeurope #microalgae #carbon #science #eaba #dlg
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A #biodiversity #investigation should be comprehensive, include #genetic diversity, #species diversity, #ecosystem diversity, and ecological processes and interactions. https://lnkd.in/gAkPsmHD
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Today #ISME19 kicks off with a keynote talk by Jennifer Martiny exploring the origins and maintenance of microbial diversity, leveraging innovative methodologies to reveal how selection, dispersal, and diversification shape bacterial and fungal community assembly. It includes insights into how ecological and evolutionary processes simultaneously influence the assembly and functioning of microbial communities and the development of tractable microbial systems to explore eco-evolutionary processes in natural settings, especially in the context of rapid global change. UC Irvine #MicrobialEcology
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