2019
DOI: 10.1098/rsos.180621
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Ecosystem engineering by digging mammals: effects on soil fertility and condition in Tasmanian temperate woodland

Abstract: Many small- and medium-sized mammals dig for their food. This activity potentially affects soil condition and fertility. Digging is well developed especially in Australian mammals, many of which have recently become rare or extinct. We measured the effects of digging by mammals on soil in a Tasmanian temperate dry sclerophyll forest with an intact mammal community. The density of diggings was 5812 ha−1, affecting 11% of the forest floor. Diggings were created at a rate of around 3113 diggings ha−1 yr−1, distur… Show more

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Cited by 31 publications
(34 citation statements)
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“…The importance of digging mammals as ecosystem engineers is well known (Davidson et al 2012). Excluding digging mammals tended to decrease bare ground cover, consistent with previous studies showing that they increase soil turnover, and bury ground cover vegetation and litter (Davidson et al 1999, 2012, Davies et al 2019, Decker et al 2019). Herbivorous digging mammals also consume ground cover vegetation, further increasing bare ground (Davidson et al 2012, Verdon et al 2016).…”
Section: Discussionsupporting
confidence: 87%
“…The importance of digging mammals as ecosystem engineers is well known (Davidson et al 2012). Excluding digging mammals tended to decrease bare ground cover, consistent with previous studies showing that they increase soil turnover, and bury ground cover vegetation and litter (Davidson et al 1999, 2012, Davies et al 2019, Decker et al 2019). Herbivorous digging mammals also consume ground cover vegetation, further increasing bare ground (Davidson et al 2012, Verdon et al 2016).…”
Section: Discussionsupporting
confidence: 87%
“…The eastern bettong pits measured at Mulligan’s Flat are also considerably smaller and shallower than the pits of other species such as the bilby or the burrowing bettong (Newell, 2008) or those of the same species recorded in Tasmanian dry sclerophyll forest (Davies et al, 2019), so they may not be as effective at incorporating organic matter into the deeper layers of soil. The reason for this difference in pit size is unclear, but could be due to differences in soil type, depth, moisture or compaction making it harder to dig, the availability of food at different depths, or the fact that bettongs and other digging animals have long been absent from the site.…”
Section: Discussionmentioning
confidence: 93%
“…Davies et al (2019) distinguished three plant types in Tasmanian temperate woodlands, and they detected soil fertility and structure to explore the different effects of burrowing engineers on soil. These effects on soil fertility and structure were strongest in habitats with dry and poor soil [25] . Burbidge et al (2007) detected the difference in soil physicochemical properties between the burrow mounds and the undisturbed areas at the landscape scale, and they found the soil penetrability typically at mounds far greater than surrounding soil that often has a hard pan [29] .…”
Section: Comparative Measurement For Soil Physicochemical Propertiesmentioning
confidence: 98%
“…At the habitat and landscape scales, bioturbation is affected by different environmental factors, including plant type, precipitation (different degrees of drying), altitude, etc., they are selected as concomitant variables to quantify the interaction between environment and burrowing engineers [21,25,26,27,28] . Davies et al (2019) distinguished three plant types in Tasmanian temperate woodlands, and they detected soil fertility and structure to explore the different effects of burrowing engineers on soil.…”
Section: Comparative Measurement For Soil Physicochemical Propertiesmentioning
confidence: 99%
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