Aqueous tissue extracts of Conyza canadensis inhibit the germination and shoot growth of three native herbs with no autotoxic effects

Hu, Gang; Zhang, Z.H.

doi:10.1590/s0100-83582013000400006

Cited by 21 publications

(11 citation statements)

References 30 publications

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“…Consistent with previous reports (Djurdjević et al 2011;Hu & Zhang 2013), our results indicated that C. canadensis exerts significant allelopathic effects on seed germination and growth of L. sativa. Our findings are consistent with the Novel Weapons Hypothesis, i.e., that some invaders are successful because they possess novel biochemical weapons that function as unusually powerful allelopathic agents, or as mediators of new plant-soil microbial interactions (Callaway & Ridenour 2004).…”

Section: Discussionsupporting

confidence: 93%

“…Some plants successfully invade certain environments because they can release toxic chemicals and thereby pose an allelopathic eff ect on seed germination and growth of co-occurring species (Djurdjević et al 2011;Hu & Zhang 2013;Wang et al 2016). Plant invasions can occur in diff erent degrees (i.e., diff erent quantitative cover classes) in colonized ecosystems (Seastedt & Pyšek 2011;Wang et al 2017).…”

Section: Introductionmentioning

confidence: 99%

“…It thrives in many habitats, such as meadows, edges of forests, clearings, orchards, farmland, pond surroundings, stream-banks, and roadsides (Main et al 2006). Allelopathic effects are hypothesized to explain the successful invasion of C. canadensis (Djurdjević et al 2011;Hu & Zhang 2013). The seedlings of L. sativa, one of the most common crops in the region invaded by C. canadensis, are sensitive to allelochemicals and the species is widely used as a bioindicator in this type of allelopathy study (Dai et al 2016;Wang et al 2016).…”

Section: Introductionmentioning

confidence: 99%

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Allelopathic suppression by Conyza canadensis depends on the interaction between latitude and the degree of the plant’s invasion

et al. 2017

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Allelopathic suppression of the growth of co-occurring plant species in invaded ecosystems is an important factor in some plant invasions. Th is study uses leaf extracts of the invasive plant species Conyza canadensis to determine its allelopathic eff ects along a latitudinal gradient, and under diff erent cover classes and degrees of invasion, on seed germination and growth of Lactuca sativa, a sensitive bioindicator of allelochemicals. Th e allelopathic eff ects of C. canadensis on seedling height, root length, seedling biomass, germination percentage, germination potential, germination index, germination rate index, and vigor index of L. sativa increased signifi cantly with increasing latitude. A possible explanation is that the leaves of plants growing in high latitudes secrete a higher concentration of allelochemicals than do leaves of plants growing in low latitudes. Th e allelopathic eff ects of C. canadensis on seedling height, seedling biomass, germination potential, germination index, germination rate index, and vigor index of L. sativa decreased with increasing degree of invasion. Th e more intense allelopathic eff ects of C. canadensis at lower degrees of invasion may enable it to establish populations in ecosystems by inhibiting the seed germination and growth of co-occurring species.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Allelopathic suppression by Conyza canadensis depends on the interaction between latitude and the degree of the plant’s invasion

et al. 2017

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“…Potential allelopathic effects are often tested through bioassays, typically by testing the effects of plant tissue extracts on the germination of a target species (e.g. Pisula and Meiners 2010a, b;Hu and Zhang 2013a;Meiners 2014). A bioassay experiment was selected for our study as it allowed us to investigate potential effects of the entire suite of plant biochemical exudates giving us a broader view of allelopathic potential of our study species (Meiners 2014).…”

Section: Germination Experimentsmentioning

confidence: 99%

Experimental evidence that invasive grasses use allelopathic biochemicals as a potential mechanism for invasion: chemical warfare in nature

et al. 2014

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Background and aims Bothriochloa spp. are non-native warm-season grasses invading native grasslands of the southern and central Great Plains, altering ecological services these grasslands supply. Our study investigated potential allelopathic effects of the invasive grass species B. ischaemum on native grass germination, growth, and survival. Methods Leachate or litter from Andropogon gerardii (native) or B. ischaemum were applied to two native grass species (A. gerardii; Schizachyrium scoparium). Leachate and litter were also added to B. ischaemum and a water control was included. Germination, above-and belowground biomass, and survival were determined.

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“…The competition for soil resources, mainly water and soil nutrients, may not have had significant effects due to the fact that these factors are not limiting due to soil characteristics (soil fertility and water retention capacity) and periodic irrigations on this experiments. Thus, changes in soil competition conditions may be due to other associations between the roots as allelopathic effects (HU & ZHANG, 2013). However, the spatial occupation ability of the roots is of primary importance in the competition for soil resources, and the relative growth rate, biomass, root hair density, and surface area are the characteristics necessary for a plant to have a good competitive ability (CASPER & JACKSON, 1997).…”

Section: Resultsmentioning

confidence: 99%

Partition Resources Soil and Light in Competition Between Soybean and Stages of Horseweed

Silva

Agostinetto

Várgas

2018

BJA

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O objetivo deste trabalho foi avaliar a competição por recursos solo e luz entre a cultura da soja e buva de diferentes estágios de desenvolvimento. Foram realizados dois experimentos em casa de vegetação, em delineamento inteiramente casualizados, arranjado em esquema bifatorial 2x4. No fator A alocaram os estágios da buva em competição com soja (buva roseta e buva de 15 cm de estatura), e o fator B as condições de competição (ausência de competição; competição por recursos de solo e luz; competição por recursos de solo; e, competição por luz). As condições de competição pelos recursos do solo e luz com a buva não afetam o desenvolvimento da soja independente do estádio de desenvolvimento da plantas daninha. O efeito da competição da buva de 15 cm por recursos de solo e luz é maior comparada com buva em estágio de roseta.

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Aqueous tissue extracts of Conyza canadensis inhibit the germination and shoot growth of three native herbs with no autotoxic effects

Cited by 21 publications

References 30 publications

Allelopathic suppression by Conyza canadensis depends on the interaction between latitude and the degree of the plant’s invasion

Allelopathic suppression by Conyza canadensis depends on the interaction between latitude and the degree of the plant’s invasion

Experimental evidence that invasive grasses use allelopathic biochemicals as a potential mechanism for invasion: chemical warfare in nature

Partition Resources Soil and Light in Competition Between Soybean and Stages of Horseweed

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