Abstract
The role of disturbance in accelerating weed growth is well understood. While most studies have focused on soil mediated disturbance, mowing can also impact weed traits. Using silverleaf nightshade (Solanum elaeagnifolium), a noxious and invasive weed, through a series of field, laboratory, and greenhouse experiments, we asked whether continuous mowing influences growth and plant defense traits, expressed via different avenues, and whether they cascade into offspring. We found that mowed plants produced significantly less number of fruits, and less number of total seeds per plant, but had higher seed mass, and germinated more and faster. When three herbivores were allowed to feed, tobacco hornworm (Manduca sexta) caterpillars, gained more mass on seedlings from unmowed plants, while cow pea aphid (Aphis craccivora), a generalist, established better on mowed seedlings; however, leaf trichome density was higher on unmowed seedlings, suggesting possible negative cross talk in defense traits. Texas potato beetle (Leptinotarsa texana), a co-evolved specialist on S. elaeagnifolium, did not show any differential feeding effects. We also found that specific root length, an indicator of nutrient acquisition, was significantly higher in first generation seedlings from mowed plants. Taken together, we show that mowing is a selective pressure that enhances some fitness and defense traits and can contribute to producing superweeds.
Highlights
The role of disturbance in accelerating weed growth is well understood
When we measured 100 seed mass, we found that seeds from mowed genets were significantly heavier than unmowed genets, suggesting that these embryos may be better fit (GLM; F = 3.35; P < 0.001; Fig. 1D), a question we addressed with the germination assays
We found significantly more seeds germinated during the early season than in the late season (GLM; F = 95.33; P < 0.001) with most of the germination taking place in the first five weeks (Fig. 2C)
Summary
The role of disturbance in accelerating weed growth is well understood. While most studies have focused on soil mediated disturbance, mowing can impact weed traits. In the semi-arid open forest with Prosopis caldenia (Caldenal), anthropogenic disturbance (e.g., fire, grazing) played a significant role in the establishment of widely distributed ruderal weed s pecie[20] In rhizomatous weeds such as Carolina horsenettle (Solanum carolinense; Solanaceae), a single mother plant can produce ~ 21 new sprouts in the following season, a grave concern to farmers when rhizomes are broken apart in agricultural lands as part of tillage[21]. Mowing is considered as mechanical wounding, leading to enhanced defenses, both locally and systemically with short and long-term effects[28,29] This interplay of anthropogenic disturbance and weed ecology, and its role in cascading growth and defense traits needs to be better understood, especially since many weed species are perennial and can propagate asexually over multiple years and growing seasons[21]
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