Kai An’s research while affiliated with Yangzhou University and other places

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Publications (3)


Seed germination and seedling emergence responding to different osmotic potentials and burial depths of 242 Leptochloa chinensis populations
  • Article

December 2024

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5 Reads

Weed Research

Guoqi Chen

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Kai An

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Yiyang Liu

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[...]

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Haiyan Wei

Leptochloa chinensis is a troublesome rice weed in many countries, and knowledge of its seed germination ecology varied in different reports. To reveal the range and general characteristics of L. chinensis seed germination under different drought stresses, and seedling emergence under different burial depths, we conducted a serial of germination experiments with 242 L. chinensis populations collected along ranges spanning 4° latitudes and 4° longitudes from rice fields in eastern China. We found that 1000‐seed weight ranged from 0.056 to 0.129 g, with an average of 0.088 g; the OR 50 (the osmotic potentials at which the germination percentage reaches 50%) was −0.47 to −0.07 MPa, with an average of −0.28 MPa; and BR 50 (the burial depth at which the emergence percentage reaches 50%) ranged from 0.07 to 0.26 cm, with an average of 0.18 cm. At −0.5 MPa, the mean germination percentage of 242 populations was 4.1%. Seed germination percentages under 0.5 and 1.5 cm quartz sand layer were both >75%, while no seedling emerged up to the surface of quartz sand. Populations collected from rice fields in northern regions leaned to be higher in 1000‐seed weights, and OR 50 values. Moreover, populations collected from transplanting rice fields slightly and significantly leaned to be more adapted to drought stresses and soil burial depths. The ability to quickly germinate, together with seed germination sensitive to drought stress and seedling emergence sensitive to soil burial, facilitate L. chinensis to avoid suicide seed germination, occupy niches under suitable environments and escape chemical control practices on rice fields.


Results (F-values) of GLMs among germination percentages of Leptochloa chinensis (L.) Nees seeds at different seed storage, agricultural regions, and rice planting methods of seed collecting fields.
Germination percentages of L. chinensis seeds stored for different periods and collected from different agricultural regions.
Regressions between longitude, latitude, and germination percentages of L. chinensis seeds stored for different periods.
Results (F-values) of GLMs among germination percentages of L. chinensis seeds at different temperatures, agricultural regions, and rice planting methods of seed collecting fields.
Germination percentages of L. chinensis seeds under different temperatures and collected from different agricultural regions.

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Seed Dormancy and Germination Responses to Different Temperatures of Leptochloa chinensis (L.) Nees: A Case Study with 242 Populations Collected from Rice Fields in East China
  • Article
  • Full-text available

September 2024

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17 Reads

Agronomy

Leptochloa chinensis (L.) Nees is a troublesome rice weed. We collected 242 L. chinensis populations from rice fields in eastern China and studied the duration of seed dormancy and the seed germination ability at different temperatures. All L. chinensis populations studied exhibited seed dormancy. The periods required to reach 50% germination under optimal conditions were 31–235 days, with an average of 96 days. None of the populations germinated at 15 °C. Under constant temperatures of 20, 25, 30, and 35 °C, the average germination percentages of 242 populations were 0%, 71%, 79%, and 60% at 2 days after treatment (DAT), and were 56%, 84%, 88%, and 88% at 14 DAT, respectively. The duration of seed dormancy, as well as the germination ability of seeds, were significantly (p < 0.05) influenced by the agricultural region and the longitude and latitude of the collection locations. Under constant temperatures of 20 to 35 °C, the average germination percentages of seeds collected from transplanted rice fields were significantly higher than those collected from direct-seeded fields. This is the first study on seed germination biology of L. chinensis with multiple populations systematically collected from rice fields on a regional scale.

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Figure 1. Distribution map of sites.
Figure 2. Species number (A) and dominance (B) of 287 native weed families.
Figure 5. Number of native weed species (A) and average value of dominance among 666 field surveying sites (B) referring to different drought resistance. Note that each percentage value represents the proportion of each trait within the same group of indicators. In (B), different letters suggest significant differences at p < 0.05.
Figure 7. Number of native weed species (A) and average value of dominance among 666 field surveying sites (B) referring to different life history traits. Note that each percentage value represents the proportion of each trait within the same group of indicators. In (B), different letters suggest significant differences at P < 0.05.
Weed trait indicators.
Diversity and Life History Traits of Native Weed Communities in Agricultural Areas: A Case Study in Eastern China

September 2024

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39 Reads

Biology

Native weeds have a long history of adaptation to local environments. Understanding the relationship between the occurrence of native weeds and their life history traits is crucial for effective weed management and risk assessment of plant invasions. In this study, we surveyed native weed species and their dominance across 666 field sites in agricultural areas of Yangzhou City, China, and each site was 13.3 hectares in area. A total of 287 native weed species were recorded, referring to 63 families, among which 45% were 50–100 cm in plant height and 47% were of an erect life type. In terms of the proportions out of the total native weed occurrence dominance, Poaceae, Compositae, and Fabaceae weeds accounted for 30%, 13%, and 11%; liana and perennials both occupied 32%; and aquatic, hygrophyte, sun plant, and shade plant all occupied < 10%. Additionally, the proportions increased with increasing seed production per plant and with increasing weediness reported worldwide. Native weed groups holding moderate vegetative reproduction abilities, moderate seed sizes, or herbicide resistance showed higher proportions. Moreover, most of the native weeds surveyed were not succulent or thorny plants and did not hold thorns, awns, obvious hairs, or mucilage on their fruits.