Tree species and functional traits but not species richness affect interrill  erosion processes in young subtropical forests

Seitz, Steffen; Goebes, Philipp; Song, Zhenfei; Bruelheide, Helge; Härdtle, Werner; Kühn, Peter; Li, Ying; Scholten, Thomas

doi:10.5194/soil-2-49-2016

Cited by 40 publications

(31 citation statements)

References 69 publications

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“…Although few studies investigated specifically the impact of weeds on soil erosion, it seems reasonable to assume that similarly to other plant covers, weeds support soil fertility and favour erosion control (Durán Zuazo & Pleguezuelo, ). Plants at ground level reduce splash erosion and reduce runoff velocity (Seitz et al ., ). Roots reduce runoff and erosion by increasing soil shear strength and favouring infiltration (Janeau et al ., ); they also enhance soil stability by direct meshing of soil aggregates (Durán Zuazo & Pleguezuelo, ).…”

Section: Introductionmentioning

confidence: 99%

The transition from arable lands to rubber tree plantations in northern Thailand impacts weed assemblages and soil physical properties

Neyret

Robain

Rouw

et al. 2018

Soil Use and Management

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In South‐East Asia, rapid land use changes in recent decades have raised concerns for biodiversity and soil conservation. Weeds provide many ecosystemic services for soil protection and support biodiversity, and could mitigate the negative effects of intensification. We investigated the changes in weed assemblages and weed–soil interactions on a chronosequence from annual crops to mature rubber tree plantations. We sampled five fields for each of four land uses in mountainous northern Thailand (rainfed upland rice, maize, young rubber tree (RT) intercropped with maize, and mature RT). We characterized weed assemblages (abundance, richness) and soil properties (bulk density, water, carbon and nitrogen content). Rice had the most diverse and abundant weed assemblages. Weed assemblages differed between (i) rice, (ii) maize and young RT with maize and (iii) mature RT. Soil water content was the highest in mature RT. Other soil properties varied strongly within and among fields, and did not vary significantly among land uses. Water and nitrogen content increased overall with living soil cover but decreased with weed species richness in mature RT. Such interactions could provide a basis for sustainable weeding practices favourable to soil and biodiversity conservation.

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Section: Introductionmentioning

confidence: 99%

The transition from arable lands to rubber tree plantations in northern Thailand impacts weed assemblages and soil physical properties

Neyret

Robain

Rouw

et al. 2018

Soil Use and Management

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“…Ehrenfeld () and recently Seitz et al . () indicated that changes in soil characteristics directly influence the composition of plant communities, with soil processes responding to the composition of the plant community and vice versa. The possibility that plant‐driven changes in soil processes could create feedback mechanisms that increase the expansion of such species could be vital for the management of expansion (as well as invasion) or the restoration of native communities (Ehrenfeld, ).…”

Section: Introductionmentioning

confidence: 99%

“…The aforementioned patchy vegetation patterns can be associated with particular soil surface conditions, water redistribution on the soil surface and landscape function, which are often a joint result of natural processes or human activity (Kakembo, 2004). Ehrenfeld (2001) and recently Seitz et al (2016) indicated that changes in soil characteristics directly influence the composition of plant communities, with soil processes responding to the composition of the plant community and vice versa. The possibility that plant-driven changes in soil processes could create feedback mechanisms that increase the expansion of such species could be vital for the management of expansion (as well as invasion) or the restoration of native communities (Ehrenfeld, 2001).…”

Section: Introductionmentioning

confidence: 99%

The Effects of Expansive Shrubs on Plant Species Richness and Soils in Semi‐arid Communal Lands, South Africa

et al. 2017

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Expansion by expansive species can have severe ecological, social and economic impacts through the reduction of ecosystem goods and services and species richness. However, expansion by expansive species may also offer benefits to ecosystems and humans, through the supply of ecosystem goods and services (such as firewood, fodder and fruits), as well as potentially offering refugia in heavily used landscapes. Here, we examine the effects of four expansive dwarf shrub species (Aspalathus subtingens, Dicerothamnus rhinocerotis, Pteronia incana and Oedera genistifolia) on plant species richness (at the point scale), vegetation cover, soil properties and whether the expansive species offer refugia to other species. Plant species richness, cover and soil properties were recorded in 1‐m2 quadrats located within a mosaic of expanded and non‐expanded patches for the four expansive shrub species. Plant species richness was significantly higher in the non‐expanded areas compared to the expanded ones for all four expansive species. Some of the expansive shrubs provided refugia to certain plant species and limited the frequency of other species. With regard to species composition, there was little separation of expanded and non‐expanded samples within sites, indicating that the site factors were stronger determinants of plant species richness and composition than expansion. Therefore, it is more likely that the reduction in species richness in expanded sites is caused by multiple drivers, including vegetation attributes cover, litter cover and soil nutrients (organic C, Zn and P) and soil compaction. Copyright © 2017 John Wiley & Sons, Ltd.

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“…High crown cover reduced soil erosion, whereas it was slightly increased with increased tree height. Thus, low tree stands with a high canopy cover effectively counteract soil loss [50]. Our results illustrate the changes in stand structure and species diversity and provide correlations between stand parameters (mensuration parameters, canopy cover, tree health and vitality structure) in four zones, based on different intensities of water erosion.…”

Section: Discussionmentioning

confidence: 55%

Study of soil water-erosion intensity and vegetation cover of an oak-spruce forest in the Pokutsko-Bukovina Carpathians, Ukraine

Blinkova¹,

Lavrov²

2017

ARCH BIOL SCI BELGRA

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The effect of soil erosion on dynamic changes in vegetation cover is an important subject of regional ecological research of the Ukrainian Carpathians. Studies on soil erosion on the Pokutsko-Bukovina Carpathians have focused on the impact of soil water erosion on tree, shrub and herbaceous layers in intensive, moderate, slight and light erosion zones. Results have shown that the intensity of water erosion and runoff, which depend on slope steepness, have a great impact on changes in the vegetation cover. This paper compares the main morphometric parameters of formed ravines, the health and composition of trees, and the composition of the herbaceous layer. The floristic list of the all experimental plots comprised 61 grass species. The stands formed Quercus robur L. and Abies alba L. Assessment of the functional types of plant species showed that the balance between competition, stress and disturbance is disrupted along a gradient of water-erosion soil transformation. Soil erosion is likely to have caused a change in the edaphic matrix. The distribution of life forms is also disturbed. Analysis of species richness of the vegetation cover under water erosion and the prevailing soil conditions showed that the values of indices depend on erosion intensity.

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Tree species and functional traits but not species richness affect interrill erosion processes in young subtropical forests

Cited by 40 publications

References 69 publications

The transition from arable lands to rubber tree plantations in northern Thailand impacts weed assemblages and soil physical properties

The transition from arable lands to rubber tree plantations in northern Thailand impacts weed assemblages and soil physical properties

The Effects of Expansive Shrubs on Plant Species Richness and Soils in Semi‐arid Communal Lands, South Africa

Study of soil water-erosion intensity and vegetation cover of an oak-spruce forest in the Pokutsko-Bukovina Carpathians, Ukraine

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