Study on Improving Litchi chinensis Production in Adverse Weather

Being sensitive to climatic conditions,the growth of Litchi chinensis（ lychee） can be greatly affected both in rainy warm winter which is conductive to winter shoot elongation,seriously affecting the formation of flower buds,and in rainy spring or cold late spring when lychee is flowering,seriously affecting pollination and fruit set. Thus,meteorological conditions play a decisive role in determining the distribution,growth and development,yield formation and quality of lychee. Based on meteorological conditions,some measures can be taken to reduce the impacts of adverse weather and take advantage of favorable weather conditions for the stable and high production of lychee. Therefore,the yield of lychee could be increased by improving the accuracy of weather forecasts and long-term cultivation and management techniques.

A strategy for mechanically integrating robust hydrogeltissue hybrid to promote the anti-calcification and endothelialization of bioprosthetic heart valve

Bioprosthetic heart valve(BHV)replacement has been the predo-minant treatment for severe heart valve diseases over decades.Most clinically available BHVs are crosslinked by glutaraldehyde(GLUT),while the high toxicity of residual GLUT could initiate calcification,severe thrombosis,and delayed endothelializa-tion.Here,we construed a mechanically integrating robust hydrogel-tissue hybrid to improve the performance of BHVs.In particular,recombinant humanized coilagen type Ⅲ(rhCOLⅢ),which was precisely customized with anti-coagulant and pro-endothelialization bioactivity,was first incorporated into the polyvinyl alcohol(PVA)-based hydrogel via hydrogen bond interactions.Then,tannic acid was introduced to enhance the mechanicalperfo of PVA-based hvdrogel and interfacial bonding between the hydrogel layer and bio-derived tissue due to the strong affinity for a wide range of substrates.In vitro and in vivo experimental results confirmed that the GLUT-crosslinked BHVs modified by the robust PVA-based hydrogel embedded rhCOLII and TA possessed long-term anti-coagulant,accelerated endothelialization,mild inflammatory response and anti-calcification properties.Therefore,our mechanically integrating robust hydrogel-tissue hybrid strategy showed the potential to enhance the service function and prolong the service life of the BHVs after implantation.