New in The Innovation Life. Nontraditional biomanipulation: A powerful ecotechnology to combat cyanobacterial blooms in eutrophic freshwaters. Chen et al. focused on the validation of nontraditional biomanipulation, from long debates on digestability of #cyanobacteria in carp to

Triethylenetetramine-functionalized #carbondots derived from #cornstraw #biomass offer a sustainable solution to #antimicrobial resistance, achieving near-100 % eradication of Staphylococcus aureus while preserving beneficial microbes such as Bacillus subtilis. Oxidase-like

SUBARU ECOTECHNOLOGY

Discover how #quasiMOFs are revolutionizing #watertreatment through #defectengineering, offering high-density active sites and hierarchical #porosity for superior #adsorption and #catalysis over traditional #MOFs. Dive into the Review article free of charge:

Explore the often-missed benefits of #WetlandRestoration. In addition to storing carbon, preventing emissions from damaged ecosystems, such as peatlands, is crucial for urgent climate action. This commentary questions common beliefs and calls for a broader look at net-zero goals.

An innovative framework to advance #freshwater ecosystem conservation: integrating ecological monitoring, mechanism-based analysis, and dynamic threshold evaluation to shift from descriptive science to predictive management amid #landuse pressures and #biodiversity decline.

Iron redox cycling in magnetic biochar-mediated #AnaerobicDigestion enhances #methanogenesis in #WasteActivatedSludge, boosting cumulative #methane production by 17% through enriched electroactive taxa like Geobacter and Methanothrix. By researchers from @HIT_1920. Dive into the

Wishing you a most rewarding year ahead, both within the academy and beyond.

Restore from the ground up! #Wetlands: vanishing fast, yet holding the key to fighting climate change. Our new cover story reveals how citizen science empowers communities to restore wetlands with precision and accountability—while preventing massive releases of ancient carbon.

Can oxygen-doped MoS₂ fully degrade persistent pharmaceuticals like #carbamazepine in just 25 minutes? ESE's latest research reveals an 11.4-fold boost in #piezophotocatalytic efficiency, narrowing the bandgap and enhancing charge separation for sustainable #remediation. Read

New research reveals how rainfall-triggered sediment plumes rise from lake beds to seed harmful algal blooms (#HAB), captured in stunning detail by ultrahigh-resolution 3D underwater drone monitoring. This is an #OpenAccess article and here is the link to read its full text:

#Citizenscience powers #wetland restoration! Global analysis reveals underuse despite policy support, with geographic biases—but tech advances enable reliable, scalable monitoring for adaptive management and sustainability. By @GitteKragh, @ShubiaoW et al. #OpenAccess Dive in:

Eco Technology is leading the way! #starboardcard #yachtfinance #superyacht #superyachtlife #worldtraveller #yacht #yachtlife #yacht #eco #ecofriendly #ecotechnology

Discover how excess #hydrogen triggers profound #metabolic reprogramming and viral dynamics in #syngas-converting #microbiomes, downregulating #methanogenesis while activating #archaeal defenses and bacterial carbon fixation via the Wood–Ljungdahl pathway. This multi-omics study

ESE's latest article presents AOP-ExpoVis, an open-source computational platform that integrates exposome-disease networks with adverse outcome pathway ontologies via weighted phenotype-disease scoring to decode multiscale mechanisms of environmental toxicity. Explore the full

Wetland restoration's key climate benefit is emission avoidance, not just carbon sequestration—essential for peatlands and near-term net-zero goals. By @ShubiaoW, @FHumpenoeder, @Annalea_Lohila et al. Read the full text #openaccess https://t.co/0uUZtXPmxk @wetland_GHG

We enjoyed an engaging presentation this week by our alumnus Lia Douillet from the Center For EcoTechnology (CET). She covered HERS ratings and various MA code topics and made the field of high-performance buildings more accessible to our students.

ESE's new research reveals how #polystyrene #nanoplastics intensify the #ocular #toxicity of tire-derived #6PPD in #zebrafishembryos, leading to myopia-like malformations, retinal damage, and impaired vision via ferroptosis pathways. Read the full study #openaccess

https://t.co/dfVtJ9gEdX #randomiser #SmartReforestation #JapanInnovation #EcoTechnology #TreePlantingDrones #GreenTech #SustainableFuture #SmartSeedPods #ClimateAction #AIForGood #DroneRevolution #ReforestationTech #FutureForests #TechForNature