Forest carbon stocks increase with higher dominance of ectomycorrhizal trees in high latitude forests.

Understanding the mechanisms controlling forest carbon accumulation is crucial for predicting and mitigating future climate change. Yet, it remains unclear whether the dominance of ectomycorrhizal (EcM) trees influences the carbon accumulation of entire forests. In this study, we analyzed forest inventory data from over 4000 forest plots across Northeast China. We find that EcM tree dominance consistently exerts a positive effect on tree, soil, and forest carbon stocks. Moreover, we observe that these positive effects are more pronounced during unfavorable climate conditions, at lower tree species richness, and during early successional stages. This underscores the potential of increasing the dominance of native EcM tree species not only to enhance carbon stocks but also to bolster resilience against climate change in high-latitude forests. Here we show that forest managers can make informed decisions to optimize carbon accumulation by considering various factors such as mycorrhizal types, climate, successional stages, and species richness.

Beneficial effects of warming on temperate tree carbon storage depend on precipitation and mycorrhizal types.

Despite evidence from multiple observation data sets and numerical model simulations that interactions between biotic and abiotic factors control tree carbon (C) storage in the Northern Hemisphere, it remains unclear whether the effect of one factor will be altered by other factors. Here, we used forest inventory data consisting of more than 500,000 trees from 1910 plots to explore the relative importance of these drivers of plant C storage in northeast China. We found that tree C storage was significantly positively associated with mean annual temperature (MAT). After controlling for the role of mean annual precipitation (MAP), directionality in the tree C storage-MAT relationship reversed, indicating that the direction of MAT affecting tree C storage depends on MAP. Accounting for the effects of tree-fungal symbioses on plant resistance to drought and warming, we found that warming increased AM tree C storage even after controlling the role of MAP, but decreased EcM tree C storage after controlling the role of MAP. Our analysis also shows that species richness, especially the relative richness of AM tree species, had a significantly positive relationship with all types of tree C storage. Our findings have implications for improving temperate forest C sink and afforestation strategies: the increasing richness of AM trees has the potential to enhance the tree C sink and reduce the sensitivity of warming-induced tree growth benefits to changes in precipitation.

A novel technique to apply a Seprafilm (hyaluronate-carboxymethylcellulose) barrier following laparoscopic surgeries.

OBJECTIVE: To describe a novel technique for application of a Seprafilm (modified hyaluronate-carboxymethylcellulose) barrier laparoscopically, and to assess the adequacy of coverage of desired sites. DESIGN: Retrospective cohort study. SETTING: University tertiary hospital. PATIENT(S): One hundred twenty-seven patients who underwent fertility-sparing laparoscopic surgery. INTERVENTION(S): The Seprafilm was rolled up in a plastic package, then delivered through the main trocar. It was unrolled and positioned to cover the traumatized surface of the uterus, ovaries, and tubes. During application, the pelvis was photographed, videotaped, and the pictures were reviewed by two surgeons. MAIN OUTCOME MEASURE(S): The adequacy of the application was divided into three levels as to whether the Seprafilm could cover all the traumatized surfaces. RESULTS: Of the first 15 patients, 4 of 15 (26%) had successful coverage of the traumatized surface with the first sheet of Seprafilm. Of the following 112 patients, 97 of 112 (86.5%) had successful coverage with the first sheet. The success rate climbed to 96% after the second or third sheet. The average time for the application of six pieces (one sheet cut into six pieces) was 21 +/- 4 minutes. The posterior cul-de-sac is difficult to apply well. CONCLUSION(S): It is feasible to apply the antiadhesion barrier Seprafilm laparoscopically. Further studies will be needed to assess the efficacy of reducing adhesion following such use.