Functional diversity loss with increasing livestock grazing intensity in drylands: the mechanisms and their consequences depend on the taxa

Chillo, Verónica; Ojeda, Ricardo A.; Capmourteres, Virginia; Anand, Madhur

doi:10.1111/1365-2664.12775

Cited by 54 publications

(26 citation statements)

References 48 publications

(130 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…EMF was substantially and directly affected by grazing, as opposed to indirectly through the effects of grazing on plant communities or microbial abundance (Figure ). Similarly, a recent grazing intensity study in dry lands showed that decomposition rates were strongly influenced by the direct effects of grazing, not indirectly through grazing effects on FD (Chillo, Ojeda, Capmourteres, & Anand, ).…”

Section: Discussionmentioning

confidence: 91%

Livestock grazing regulates ecosystem multifunctionality in semi‐arid grassland

et al. 2018

View full text Add to dashboard Cite

Livestock grazing has been shown to alter the structure and functions of grassland ecosystems. It is well acknowledged that grazing pressure is one of the strongest drivers of ecosystem‐level effects of grazing, but few studies have assessed how grazing pressure impacts grassland biodiversity and ecosystem multifunctionality (EMF). Here, we assessed how different metrics of biodiversity (i.e., plants and soil microbes) and EMF responded to seven different grazing treatments based on an 11‐year field experiment in semi‐arid Inner Mongolian steppe. We found that soil organic carbon, plant‐available nitrogen and plant functional diversity all decreased even at low grazing pressure, while above‐ground primary production and bacterial abundance decreased only at high levels of grazing pressure. Structural equation models revealed that EMF was driven by direct effects of grazing, rather than the effects of grazing on plant or microbial community composition. Grazing effects on plant functional diversity and soil microbial abundance did have moderate effects on EMF, while plant richness did not. Synthesis. Our results showed ecosystem functions differ in their sensitivity to grazing pressure, requiring a low grazing threshold to achieve multiple goals in the Eurasian steppe. A http://onlinelibrary.wiley.com/doi/10.1111/1365-2435.13215/suppinfo is available for this article.

show abstract

Section: Discussionmentioning

confidence: 91%

Livestock grazing regulates ecosystem multifunctionality in semi‐arid grassland

et al. 2018

View full text Add to dashboard Cite

show abstract

“…This is particularly important for SDTF as they have experienced increasing levels of chronic disturbance and are exposed to local (Collevati et al 2013) and global (Blackie et al 2014) climate change. As a consequence, this increase in disturbance may not only reduce vegetation regeneration (Villarreal-Barajas and , Marinho et al 2016, but also change the functioning of SDTF, with pervasive consequences for ecosystem processes and services, such as carbon storage (Schulz et al 2016) and decomposition rate (Chillo et al 2017).…”

Section: Discussionmentioning

confidence: 99%

Chronic human disturbance affects plant trait distribution in a seasonally dry tropical forest

Sfair

Bello

França

et al. 2018

Environ. Res. Lett.

View full text Add to dashboard Cite

The effects of human disturbance on biodiversity can be mediated by environmental conditions, such as water availability, climate and nutrients. In general, disturbed, dry or nutrient-depleted soils areas tend to have lower taxonomic diversity. However, little is known about how these environmental conditions affect functional composition and intraspecific variability in tropical dry forests. We studied a seasonally dry tropical forest (SDTF) under chronic anthropogenic disturbance (CAD) along rainfall and soil nutrient gradients to understand how these factors influence the taxonomic and functional composition. Specifically we evaluated two aspects of CAD, wood extraction and livestock pressure (goat and cattle grazing), along soil fertility and rainfall gradients on shrub and tree traits, considering species turnover and intraspecific variability. In addition, we also tested how the traits of eight populations of the most frequent species are affected by wood extraction, livestock pressure, rainfall and soil fertility. In general, although CAD and environmental gradients affected each trait of the most widespread species differently, the most abundant species also had a greater variation of traits. Considering species turnover, wood extraction is associated with species with a smaller leaf area and lower investment in leaf mass, probably due to the indirect effects of this disturbance type on the vegetation, i.e. the removal of branches and woody debris clears the vegetation, favouring species that minimize water loss. Livestock pressure, on the other hand, affected intraspecific variation: the herbivory caused by goats and cattle promoted individuals which invest more in wood density and leaf mass. In this case, the change of functional composition observed is a direct effect of the disturbance, such as the decrease of palatable plant abundance by goat and cattle herbivory. In synthesis, CAD, rainfall and soil fertility can affect trait distribution at community and species levels, which can have significant implications for the ecosystem functioning of SDTF under increasing levels of disturbance, climate change and soil nutrient depletion.

show abstract

“…These factors are clearly linked, as cattle reduces undergrowth in plantations through grazing and soil compaction (LEP pers.obs). Grazing has also previously been found to negatively affect the taxonomic and functional diversity of small mammals in Argentina [ 76 ]. Furthermore, it has been demonstrated that habitat heterogeneity and complexity helps sustain biodiversity in oil palm plantations [ 77 ][ 78 ] and other agroecosystems [ 79 ][ 80 ][ 81 ] by improving the complexity of the trophic webs [ 82 ].…”

Section: Discussionmentioning

confidence: 99%

Terrestrial mammal responses to oil palm dominated landscapes in Colombia

et al. 2018

View full text Add to dashboard Cite

The rapid expansion of oil palm cultivation in the Neotropics has generated great debate around possible biodiversity impacts. Colombia, for example, is the largest producer of oil palm in the Americas, but the effects of oil palm cultivation on native fauna are poorly understood. Here, we compared how richness, abundance and composition of terrestrial mammal species differ between oil palm plantations and riparian forest in the Colombian Llanos region. Further, we determined the relationships and influence of landscape and habitat level variables on those metrics. We found that species richness and composition differed significantly between riparian forest and oil palm, with site level richness inside oil palm plantations 47% lower, on average, than in riparian forest. Within plantations, mammalian species richness was strongly negatively correlated with cattle abundance, and positively correlated with the density of undergrowth vegetation. Forest structure characteristics appeared to have weak and similar effects on determining mammal species richness and composition along riparian forest strips. Composition at the landscape level was significantly influenced by cover type, percentage of remaining forest and the distance to the nearest town, whereas within oil palm sites, understory vegetation, cattle relative abundance, and canopy cover had significant effects on community composition. Species specific abundance responses varied between land cover types, with oil palm having positive effects on mesopredators, insectivores and grazers. Our findings suggest that increasing habitat complexity, avoiding cattle and retaining native riparian forest–regardless of its structure–inside oil palm-dominated landscapes would help support higher native mammal richness and abundance at both local and landscape scales.

show abstract

Functional diversity loss with increasing livestock grazing intensity in drylands: the mechanisms and their consequences depend on the taxa

Cited by 54 publications

References 48 publications

Livestock grazing regulates ecosystem multifunctionality in semi‐arid grassland

Livestock grazing regulates ecosystem multifunctionality in semi‐arid grassland

Chronic human disturbance affects plant trait distribution in a seasonally dry tropical forest

Terrestrial mammal responses to oil palm dominated landscapes in Colombia

Contact Info

Product

Resources

About