https://cellcycleinhibitors.com/strange-temp-dependency-of-the-fluorescence-corrosion-inside/ Meanwhile, we embed a channel attention system in each part module to improve the worldwide and neighborhood features. Whereafter, we cascade multiple dual-branch collaborative modules to design a feature cascade component, which more learns features at more abstract levels through the multi-layer cascade design strategy. Extensive experiments on the Plant Village dataset demonstrated top category overall performance of our DBCLNet method compared towards the state-of-the-art options for the recognition of 38 types of crop conditions. Besides, the precision, Precision, Recall, and F-score of our DBCLNet when it comes to recognition of 38 categories of crop conditions tend to be 99.89%, 99.97%, 99.67%, and 99.79%, correspondingly. 811.High-salinity and blast infection are two significant stresses that cause dramatic yield loss in rice production. GF14 (14-3-3) genes are reported to play important role in biotic and abiotic stresses in plants. However, the functions of OsGF14C continue to be unknown. To know the functions and regulating systems of OsGF14C in controlling salinity tolerance and blast opposition in rice, we've conducted OsGF14C-overexpressing transgenic experiments in today's research. Our outcomes showed that overexpression of OsGF14C improved salinity tolerance but decreased blast resistance in rice. The improved salinity tolerance is related to the reduction of methylglyoxal and Na+ uptake instead of exclusion or compartmentation as well as the negative role of OsGF14C in blast weight is from the suppression of OsGF14E, OsGF14F and PR genetics. Our outcomes together with the outcomes from the previous studies suggest that the lipoxygenase gene LOX2 which is regulated by OsGF14C may play roles in coordinating salinity threshold and blast weight in rice. The current research the very first time disclosed the feasible roles of OsGF14C in controlling salinity tol