Abstract
Due to increasing globalization and human disturbance, plant invasion has become a worldwide concern. Soil characteristics associated with the vegetation of recipient communities affect plant invasion success to a great extent. However, the relative importance of soil biotic and abiotic factors of different recipient communities in resisting plant invasion is not fully understood. We hypothesized that natural forest soils can better resist plant invasion than can plantation soils, that the allelopathic legacy of resident trees in soil plays a role in resisting invasive plants, and that late-successional soils have a strong effect. We examined the effects of soil and litter collected from four natural forests at successional stages and one Robinia pseudoacacia Linn. plantation in eastern China on the growth of Phytolacca americana L., which is a highly invasive species across China, and explored the individual effects of soil nutrients, allelochemicals, and soil microbes. We found that allelopathic activity of natural forest soils can effectively resist P. americana invasion, and that low level of nutrients, especially of phosphorus, in the soils might be potential limiting factors for the plant growth. The profound conditioning of soil resources by exotic R. pseudoacacia based on tree traits (including allelopathy) facilitated further P. americana invasion. Allelochemicals from forest litter inhibited the germination of P. americana seeds, but pH played a major role in P. americana growth when these substances entered the soil. However, we have no evidence that late-successional forest soils exhibit strong allelopathy toward P. americana. The present study will help to further our understanding of the mechanism of community resistance to invasion.
Highlights
Due to increasing globalization and human disturbances, plant invasion has become a worldwide concern [1,2]
Our results show that the soil properties of the subjected forests differed: Four natural forest soils significantly inhibited that the soil properties of the subjected forests differed: Four natural forest soils significantly that the soil properties of the subjected forests differed: Four natural forest soils significantly the growth of P. americana, while the R. pseudoacacia plantation (RP) soil significantly promoted its growth
We found that the allelopathic activity in natural forest soil and litter inhibited the growth of P. americana but that RP soil promoted its growth (Figures 2 and 3), which seems to confirm our second hypothesis: Allelopathy of natural forests inhibits P. americana growth and that of the
Summary
Due to increasing globalization and human disturbances, plant invasion has become a worldwide concern [1,2]. Prior studies have shown that successful plant invasions are related to the vegetation characteristics of recipient communities; these characteristics affect both the resource availability of habitats and biotic resistance [4,5,6,7,8]. Invaders become established only if propagules can survive while growing to maturity on the resources left unconsumed by resident species (resource-dependent establishment) [11]. Plant species shape their soil conditions, including the biogeochemistry and biota, by governing, e.g., nutrient uptake processes, interactions with symbiotic mycorrhiza, and litter decomposition [12,13]
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