Appendix C. A table presenting relative light intensity, soil pore water salinity, soil water content (g water/g wet soil), and soil temperature in four habitats in Zhangjiang Estuary.

A table presenting relative light intensity, soil pore water salinity, soil water content (g water/g wet soil), and soil temperature in four habitats in Zhangjiang Estuary

Appendix A. Three figures documenting field site location in Zhangjiang Estuary and vegetation cover in different habitats.

Three figures documenting field site location in Zhangjiang Estuary and vegetation cover in different habitats

Appendix B. Two ANOVA tables for crab densities and Spartina alterniflora seed predation in four habitats.

Two ANOVA tables for crab densities and Spartina alterniflora seed predation in four habitats

Zhang et al. 2018 Ecology data

Zhang et al. 2018 Ecology dat

Appendix A. Four figures documenting vegetation cover at each of the study sites in the Zhangjiang Estuary.

Four figures documenting vegetation cover at each of the study sites in the Zhangjiang Estuary

Appendix B. A table presenting density and vegetation structure of three dominant mangrove species along a salinity gradient in Zhangjiang Estuary in 2007.

A table presenting density and vegetation structure of three dominant mangrove species along a salinity gradient in Zhangjiang Estuary in 2007

Supporting Information from Postbuckling analyses of frame mesostructures consisting of straight ribbons for mechanically guided three-dimensional assembly

This file includes: 1) Supplementary Note 1: Continuity conditions of frame mesostructures; 2) Supplementary Figures S1-S4

Appendix E. A table summarizing growth of Spartina alterniflora ramets 10 weeks after being transplanted into mangrove understory, forest edge, and unvegetated mudflat habitats in 2008.

A table summarizing growth of Spartina alterniflora ramets 10 weeks after being transplanted into mangrove understory, forest edge, and unvegetated mudflat habitats in 2008

Video1_Molten pool flow behavior and influencing factors in electron beam selective melting of IN738 superalloy.WMV

Electron beam selective melting (EBSM) has emerged as a promising technology for additive manufacturing (AM) of superalloys. In this study, a comprehensive multi-physics model is developed to analyze the molten pool flow behavior and influencing factors in the EBSM process. The discrete element method (DEM) and volume of fluid (VOF) method are employed to establish the powder bed model and track the solid-liquid free surface, respectively. The results reveal that the molten pool exhibits a conduction mode characterized by a large width-to-depth ratio driven by the Marangoni effect. Internal vortices cause the molten pool to expand even after the scan ends. The ambient pressure, in comparison to the preheat temperature, has a significant impact on vapor recoil and consequently affects the surface quality of the molten pool. Moreover, a large hatch distance results in cracks and porous morphological features on the surface of the samples. These findings demonstrate the effectiveness of numerical simulations in providing detailed insights into the EBSM process of the IN738 superalloy material.</p