Negative Plant–Soil Feedback and Positive Species Interaction in a Herbaceous Plant Community

Bonanomi, Giuliano; Rietkerk, Max; Dekker, Stefan C.; Mazzoleni, Stefano

doi:10.1007/s11258-005-7221-5

Cited by 43 publications

(35 citation statements)

References 40 publications

(45 reference statements)

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“…This has been reported for coastal sand dunes during primary succession (Van der Putten et al 1993), secondary succession and temperate grasslands (Bever 1994, Klironomos 2002, Bonanomi et al 2005b, and temperate (Streng et al 1989, Packer andClay 2000) and tropical forests (Webb et al 1967, Kiers et al 2000. In a literature survey, reported as Appendix to this paper, we found 138 experimental cases of plant-soil negative feedback on terrestrial ecosystems, but none for flowering plants and algae in marine and freshwater environments Appendix 1).…”

Section: Plant-soil Negative Feedbacksupporting

confidence: 58%

Is plant biodiversity driven by decomposition processes? An emerging new theory on plant diversity

Mazzoleni¹,

Bonanomi²,

Giannino³

et al. 2007

Community Ecology

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Abstract. Diversity of forest trees ranges from monospecific stands to the astonishing richness of tierra firma tropical forests. Such patterns are observed along gradients of latitude, altitude, soil fertility and rainfall. So far, the proposed coexisting mechanisms do not provide a comprehensive and unequivocal explanation of these patterns at the community level. We propose a new theory linking species diversity with organic matter cycle and negative plant-soil feedback induced by litter autotoxicity. This approach focuses on resource-waste rather than resource-only dynamics. High diversity does occur where litter decomposition is rapid and ecosystem nutrient cycles are closed. On the other hand, single species dominance is found where litter decomposition is slow and/or autotoxicity is removed from the nutrient cycle pathway. Unlike previous theoretical views, the one we present proves potentially capable of explaining differences in species diversity both along environmental gradients and within the tropics.

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Section: Plant-soil Negative Feedbacksupporting

confidence: 58%

Is plant biodiversity driven by decomposition processes? An emerging new theory on plant diversity

Mazzoleni¹,

Bonanomi²,

Giannino³

et al. 2007

Community Ecology

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“…Negative plant-soil feedback is defined as the negative condition for the establishment, growth, and reproduction of plants induced in the soil by the plants themselves. This has been reported for coastal sand dunes during primary succession (Van der Putten et al 1993), secondary succession (Brown and Gange 1992;De Deyn et al 2003), temperate grasslands (Bever 1994;Klironomos 2002;Bonanomi et al 2005b), and temperate (Streng et al 1989;Packer and Clay 2000) and tropical forests (Webb et al 1967;Wills et al 1997). Mechanisms proposed explaining this negative feedback include soil nutrient depletion (Berendse 1994;Ehrenfeld et al 2005), the build-up of soil-borne pathogen populations (De Rooij-van Der Goes 1995;Packer and Clay 2000), the changing community composition of soil microbial organisms (Bever 1994), and the release of allelopathic compounds during organic matter decomposition causing phytotoxicity (Singh et al 1999;Armstrong and Armstrong 2001;Bonanomi et al 2006a).…”

Section: Introductionmentioning

confidence: 80%

Islands of fertility induce co-occurring negative and positive plant-soil feedbacks promoting coexistence

et al. 2007

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Positive plant-soil feedback by ''ecosystem engineers'' is an important driver for the structuring and organization of resource-limited ecosystems. Although ample evidence demonstrates that plant-soil feedbacks can range from positive to strongly negative, their co-occurrence in plant communities have not yet been investigated. We test the hypothesis that the plant-soil feedback generated by the nitrogen-fixer shrub Medicago marina during primary succession in a sand dune community has a positive effect on the coexisting grass Lophochloa pubescens and a negative effect on the shrub species itself. We conducted field measurements and laboratory bioassays to evaluate (1) the effects of islands of fertility on the recruitment and growth of its ecosystem engineer and on the performance of a coexisting species and (2) the mechanisms involved that can explain the opposite effects of islands of fertility on coexisting species. Islands of fertility were present under Medicago crowns evidenced by higher available nitrogen, extractable phosphorus and potassium, organic matter, microbial activity, water holding capacity, soil humidity, and lower salt concentrations. The effects of these islands of fertility were clearly species-specific, with a facilitative impact on Lophochloa and a negative effect on Medicago recruitment. Lophochloa was denser and produced more biomass when rooted inside as compared to outside the crown area of the shrub. Contrarily, the number of seedlings of Medicago was lower inside, despite the higher seed abundance, and higher outside the crown area of adult shrubs as compared to predictions based on random distribution, thus showing a Janzen-Connell distribution. Laboratory experiments demonstrate the occurrence of Medicago negative plant-soil feedback, and that the auto-toxicity of the aboveground senescent plant material is a potentially important underlying mechanism explaining this negative feedback and the resulting Janzen-Connell distribution in the field.

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“…More recently, Callaway (2007, p. 160) pointed out that such plant-soil negative feedback has not been explicitly considered in the context of plant facilitation. New evidence from studies carried out in temperate grasslands (e.g., Klironomos 2002;Bonanomi et al 2005b) indicates that plant species can produce a mosaic of microsites detrimental to conspecifics, but beneficial to other species (review in Mazzoleni et al 2007;Kulmatisky et al 2008). The effects of such facilitative mechanism are cryptic, and can be assessed only by specific experiments (Klironomos 2002;Bonanomi et al 2005b).…”

Section: Discussionmentioning

confidence: 99%

Assessing occurrence, specificity, and mechanisms of plant facilitation in terrestrial ecosystems

2011

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Plants alter environmental conditions enhancing the recruitment of other species. In spite of prior reviews of facilitation, the variability of its occurrence, mechanisms, and specificity across terrestrial ecosystems has not yet been assessed. In this article, we analyze facilitative mechanisms and the distribution of specific traits, such as nitrogen fixation and the presence of fleshy fruits, across ecosystems. A comprehensive database including 2,080 cases of facilitation among higher plants from 539 articles was analyzed with descriptive statistics for occurrences of positive interactions and underlying mechanisms in different terrestrial ecosystems. Positive interactions by plant-induced environmental changes are widespread in a range of ecosystems and not limited to conditions of chronic abiotic stress such as semiarid, alpine, and wetland ecosystems. The capability to act as nurse largely varied among different growth forms, and was observed more frequently for woody than for herbaceous plants. Nitrogen fixers occur much more frequently as nurse plants than as beneficiary plants in facilitation cases due to increasing soil fertility. As known for Mediterranean ecosystems, fleshy-fruited species appear more dependent on facilitative interactions than other plants, being more frequent among beneficiaries than among nurses. The pattern can be extended worldwide being consistent in wetland, temperate, and alpine ecosystems as well. Our description of the relationship between distribution, mechanisms, and specificity of facilitation in terrestrial ecosystems has implications for the understanding of plant community organization considering that plant nursing capacity is affected by their size, architecture, and life span

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Negative Plant–Soil Feedback and Positive Species Interaction in a Herbaceous Plant Community

Cited by 43 publications

References 40 publications

Is plant biodiversity driven by decomposition processes? An emerging new theory on plant diversity

Is plant biodiversity driven by decomposition processes? An emerging new theory on plant diversity

Islands of fertility induce co-occurring negative and positive plant-soil feedbacks promoting coexistence

Assessing occurrence, specificity, and mechanisms of plant facilitation in terrestrial ecosystems

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