#ClimaticConditions

JMIR Publications

@jmirpub.bsky.social

3 weeks ago

Accuracy of Optical Heart Rate Measurements for 10 Commercial Wearables in Different Climate Conditions and Activities: Instrument Validation Study Background: Commercial wearable devices allow for continuous heart rate (HR) monitoring in daily life. Their accuracy under ecologically valid conditions, however, remains insufficiently independently tested, especially during irregular activity, cognitive stress, and variable climates. Objective: The present study evaluated the HR accuracy of ten commercially available wearables under controlled variations in physical activity, cognitive stress, and temperature. We hypothesized that physical activity irregularity, cognitive stress, and thermal climate conditions would affect measurement accuracy. Methods: Forty-five healthy adults (21–68 years, mean ± SD: 34 ± 12) completed a standardized protocol in climate-controlled chambers simulating neutral (23°C), hot (36°C), and cold (10°C) conditions. Tasks included rest, cognitive stress (Montreal Imaging Stress Task), steady walking, and intermittent walking. Each of ten devices (Fitbit Charge 6, Fitbit Inspire 3, Garmin Vivosmart 5, Garmin Vivoactive 5, Apple Watch SE, Google Pixel Watch 2, Polar Ignite 3, Polar Pacer, Xiaomi Watch 2, Oura Ring Gen 3) was compared against ECG-derived HR from a Zephyr BioHarness chest strap. Accuracy was assessed using mean absolute error (MAE), mean absolute percentage error (MAPE), repeated-measures concordance correlation coefficient (CCC), and Bland–Altman analysis. Results: Significant variability across devices was observed. Fitbit Charge 6 (MAE 4.5 bpm, MAPE 5.5%, CCC 0.93) and Google Pixel Watch 2 (MAE 4.9 bpm, MAPE 6.7%, CCC 0.87) showed strong agreement with the gold standard. In contrast, Fitbit Inspire 3, Polar Ignite 3, Polar Pacer, and Oura Ring displayed larger errors (MAE 9–14 bpm, MAPE 11–16%) and lower CCC values (0.45–0.66). The climate conditions did not significantly affect the measurement accuracy of the test devices. The activity type, however, did have a significant effect: intermittent walking increased errors for multiple devices. Conclusions: Wearable HR measurement accuracy is device-specific and context-dependent. Moderate climates did not impair performance, but irregular movement reduced accuracy. Fitbit Charge 6 and Google Pixel Watch 2 demonstrated highest reliability, supporting their use in health and sports monitoring. Careful device selection and context-aware interpretation remain critical for applied and clinical applications.

JMIR Formative Res: Accuracy of Optical Heart Rate Measurements for 10 Commercial Wearables in Different Climate Conditions and Activities: Instrument Validation Study #WearableTech #HeartRateMonitor #FitnessTracking #HealthTech #ClimaticConditions

Agronomy for Sustainable Development

@asd-inrae.bsky.social

3 months ago

Increasing crop diversity reduces pesticides across diverse production situations - Agronomy for Sustainable Development Pesticides have caused significant losses of biodiversity and pose a threat to human health. Crop diversification is proposed as a major solution to achieve the needed pesticide reduction in agricultu...

Zhang, Y., Zhang, C., Cong, WF. et al. Increasing crop diversity reduces pesticides across diverse production situations. Agron. Sustain. Dev. 45, 53 (2025).
doi.org/10.1007/s135...
#PesticideUse #TreatmentFrequencyIndex #ClimaticConditions #CroppingSystem

Journal of Plant Ecology

@jpecol.bsky.social

4 months ago

Results of linear mixed-effects models (LMMs) testing how plant growth types, pathogen lifestyles, and their interaction affected disease position (a-c) in forbs, grasses, and legumes; or how plant growth types, disease types, and their interaction affected disease position (d-f) in forbs, grasses, and legumes.

💡Fungal pathogen characteristics & host plant characteristics & #ClimaticConditions ➡️ Disease position

Results:
1️⃣ Disease position was be higher for #BiotrophicPathogens.
2️⃣ Larger host plants had lower mean disease positions.

#ClimateChange

@mapjournals.bsky.social

doi.org/10.1093/jpe/...