L Liu’s research while affiliated with Hunan Agricultural University and other places

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Publications (1)

Fig. 1 Sample sites along the invasion stages of E. adenophorum. MJ, Mojiang county; JJ, Jiujing town; MH, Monghai county; DS, Dashan town; ML, Malu town; SH, Shuhe town; CJ, Chengjiang county; DL, Dali municipality; BC, Bingchuan county; YB, Yanbian county; MY, Miyi county; KM, Kunming city; QL, Qinglong county; DC, Dechang county; XD, Xide county, CX, Chengxian town; MN, Mianning county; YB, Yibing municipality; LZ, Luzhou municipality; CQ, Chongqing city; CN, Changnan county.
Fig. 2 The H differences between native A. argyi and invasive E. adenophorum along the invasion stages of E. adenophorum. Notes: different capital letters signify significantly different H values among the invasion stages of E. adenophorum, different lowcase letters signify significantly different H values among the invasion stages of E. adenophorum for A. argyi, and '*' signifies significantly different H values between A. argyi and E. adenophorum at the same invasion stages of E. adenophorum.
Fig. 3 Relationships between H and invasion time of E. adenophorum for native A. argyi and invasive E. adenophorum.
Rapid nitrogen and phosphorus homeostasis transformation in Eupatorium adenophorum during invasion
  • Article
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August 2019

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156 Reads

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6 Citations

Weed Research

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L Liu

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L‐Y Qi

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Exotic plants can compete well with native species because many invasive species are considered better nutrient users in both low‐ and high‐resource environments. However, whether invasive plants can outperform native plants at all stages of invasion is not very clear. We investigated the nitrogen (N), phosphorus (P) and N:P homeostasis of an invasive Eupatorium adenophorum and a co‐occurring native plant Artemisia argyi in an area across the five invasion stages of E. adenophorum. The N homeostasis (HN) of E. adenophorum was higher than that of A. argyi, whereas the P and N:P homeostasis (HP and HN/P) were higher for A. argyi. For E. adenophorum, HN decreased, but HP and HN/P increased with the invasion time. For A. argyi, HN/P increased, HP and HN remained stable with the invasion time. The results demonstrated that E. adenophorum could maintain higher HN during invasion stages when N was limited and could maintain higher HN and HP at invasion stages when P was more limited. This rapid nitrogen and phosphorus homeostasis transformation of invasive E. adenophorum during its invasion stages guarantees its stronger competitive ability over native species and promotes its invasion success.

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Citations (1)

... The difference in Bacillus diversity between A. artemisiifolia and S. viridis further indicates that different functional traits play great roles in shaping microbial community of rhizosphere soil. Besides, increasing evidences show that invasiveness of the invasive species is associated with significant changes in the plant-soil elemental composition and stoichiometry (Gonzaĺez et al., 2010;Wu et al., 2019). One of the invasion hypotheses proposes that changes in the soil microbial communities caused by invasive plants can result in positive plant-soil feedback by accumulating beneficial microorganisms in the rhizosphere (Inderjit and Cahill, 2015). ...

Reference:

Bacillus benefits the competitive growth of Ambrosia artemisiifolia by increasing available nutrient levels
Rapid nitrogen and phosphorus homeostasis transformation in Eupatorium adenophorum during invasion

Weed Research

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L Liu

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L‐Y Qi

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[...]

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