Abstract
Resource pulses are a common event in agro-ecosystems. A pot experiment was conducted to assess the effects of nitrogen (N) pulses and competition on the growth of an invasive weed, Amaranthus retroflexus, and a native crop, Glycine max. A. retroflexus and G. max were planted in pure culture with two individuals of one species in each pot and in mixed culture with one A. retroflexus and one G. max individual and subjected to three N pulse treatments. The N treatments included a no-peak treatment (NP) with N applied stably across the growing period, a single-peak treatment (SP) with only one N addition on the planting date, and a double-peak treatment (DP) with two N additions, one on the planting date and the other on the flowering date. N pulse significantly impacted biomass and height of the two species across the whole growing season. However, only the relative growth rate (RGR) of A. retroflexus was significantly affected by N pulse. A. retroflexus had the greatest biomass and height in the SP treatment at the first harvest, and in the DP treatment at the last three harvests. Pure culture G. max produced the greatest biomass in the DP treatment. In mixed culture, G. max produced the greatest biomass in the NP treatment. Biomass production of both species was significantly influenced by species combination, with higher biomass in mixed culture than in pure culture at most growth stages. Relative yield total (RYT) values were all greater than 1.0 at the last three harvests across the three N treatments, suggesting partial resource complementarity occurred when A. retroflexus is grown with G. max. These results indicate that A. retroflexus has a strong adaptive capacity to reduce interspecific competition, likely leading to its invasion of G. max cropland in China.
Highlights
Invasion by exotic species is one of the most significant threats to biodiversity and ecosystems globally [1]
A. retroflexus individuals grown in the single-peak treatment (SP) treatment had higher (P < 0.05) shoot, root, and total biomass compared to individuals grown in the double-peak treatment (DP) and no-peak treatment (NP) treatments at the first growth stage
Differences in shoot, root, and total biomass of G. max in mixed culture were not detected among the three N treatments at the first harvest, while G. max total biomass in mixed culture were 2–14% and 1–7% higher in the NP treatment compared to the SP and DP treatments, respectively, at the last three harvests (P < 0.05)
Summary
Invasion by exotic species is one of the most significant threats to biodiversity and ecosystems globally [1]. Understanding the mechanisms by which invasive species outcompete native species is necessary to reduce the negative impacts of the invasive species. Dozens of hypotheses have been put forward to explain the success of invasive species [2]. Growth Responses of Amaranthus retroflexus and Glycine max to N Pulses. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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