Xinglei Shi scite author profile

Xinglei Shi

2Publications

2Citation Statements Received

99Citation Statements Given

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Nanjing Agricultural University

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Microstructure determines floating ability of weed seeds

Shi

Zheng

et al. 2020

Pest Management Science

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BACKGROUND: Weed seeds in rice-wheat continuous cropping fields spread via flowing water during irrigation of the rice crop. However, the ability of their adaptation to water dispersal and their structural mechanisms remain unclear. One hundred and ten species of weed seeds from 35 families were selected for this study. Seed slices were made through freeze sectioning to observe and assess the proportions of parenchyma, aerenchyma and lignified tissue. Microstructure and morphological traits, such as relative size and appendages were integrated into an analysis. RESULTS: Multivariate statistical analysis showed that floating time was significantly positively correlated with the shape, aerenchyma and parenchyma of the weed seeds and negatively with lignified tissue. Cluster analysis divided all the tested seeds into four categories. The first category was super floating weeds, which had a large proportion of parenchyma or air chamber and floated on water surfaces for > 400 h, including 16 species; the second category was strong floating weeds, which had a flat shape, parenchyma or air chamber structures and floated for 120 to 400 h, including 17 species; the third category was floating weeds, which were usually dense in structure with a floating time < 120 h, including 78 species; the fourth category showed no floating ability with a large size and mass, and dense structures including seven species. CONCLUSION: Most weeds had floating ability, which was closely related to the adaptability of their anatomical structures. This study takes an insight into understanding ecological adaptation of weeds and the sustainable ecological weed control through removing floating weed seeds.

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A new technique for stain-marking of seeds with safranine to track seed dispersal and seed bank dynamics

Zhang

Shi

et al. 2022

Front. Plant Sci.

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Accurate tracking of seed dispersal is critical for understanding gene flow and seed bank dynamics, and for predicting population distributions and spread. Available seed-tracking techniques are limited due to environmental and safety issues or requirements for expensive and specialized equipment. Furthermore, few techniques can be applied to studies of water-dispersed seeds. Here we introduce a new seed-tracking method using safranine to stain seeds/fruits by immersing in (ex situ) or spraying with (in situ) staining solution. The hue difference value between pre- and post-stained seeds/fruits was compared using the HSV color model to assess the effect of staining. A total of 181 kinds of seeds/fruits out of 233 tested species of farmland weeds, invasive alien herbaceous plants and trees could be effectively stained magenta to red in hue (320–360°) from generally yellowish appearance (30–70°), in which the other 39 ineffectively-stained species were distinguishable by the naked eye from pre-stained seeds. The most effectively stained seeds/fruits were those with fluffy pericarps, episperm, or appendages. Safranine staining was not found to affect seed weight or germination ability regardless of whether seeds were stained ex situ or in situ. For 44 of 48 buried species, the magenta color of stained seeds clearly remained recognizable for more than 5 months after seeds were buried in soil. Tracking experiments using four species (Beckmannia syzigachne, Oryza sativa f. spontanea, Solidago Canadensis, and Acer buergerianum), representing two noxious agricultural weeds, an alien invasive plant, and a tree, respectively, showed that the safranine staining technique can be widely applied for studying plant seed dispersal. Identifying and counting the stained seeds/fruits can be executed by specially complied Python-based program, based on OpenCV library for image processing and Numpy for data handling. From the above results, we conclude that staining with safranine is a cheap, reliable, easily recognized, automatically counted, persistent, environmentally safe, and user–friendly tracking-seed method. This technique may be widely applied to staining most of the seed plant species and the study of seed dispersal in arable land and in disturbed and natural terrestrial or hydrophytic ecological systems.

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Xinglei Shi

Microstructure determines floating ability of weed seeds

A new technique for stain-marking of seeds with safranine to track seed dispersal and seed bank dynamics

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