What do dung beetles eat?
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What do dung beetles eat? / Holter, Peter; Scholtz, Clarke H.
In: Ecological Entomology, Vol. 32, 2007, p. 1365-2311.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - What do dung beetles eat?
AU - Holter, Peter
AU - Scholtz, Clarke H.
N1 - Keywords:Assimilable carbon;C/N ratio;coprophagous;food exploitation;nitrogen;selective feeding
PY - 2007
Y1 - 2007
N2 - Most adult coprophagous beetles feed on fresh dung of mammalian herbivores, confining ingestion to small particles with measured maximum diameters from 2-5 to 130 µm, according to body size and kind of beetle. This study explores benefits and costs of selective feeding in a ‘typical' dung beetle with a maximum diameter of ingested particles (MDIP) of 20 µm. 2. Examined dung types (from Danish domestic sheep, cattle and horse, and African wild buffalo, white rhino and elephant) contained 76-89% water. Costs of a 20 µm MDIP were often low, since 69-87% of the total nitrogen in bulk dung other than that of elephant and rhino (40-58%) was available to selective feeders.3. Nitrogen concentrations were high - and C/N ratios low - in most types of bulk dung compared with the average food of terrestrial detritivores or herbivores. Exceptions were elephant and rhino dung with low nitrogen concentrations and high C/N ratios.4. Estimated C/N ratios of 13-39 in bulk dung (sheep-elephant) were decreased by selective feeding to 7.3-12.6 in the ingested material. In assimilated food, ratios are probably only 5-7, as most assimilable nitrogen and carbon may be of microbial origin. If so, the assimilable food contains a surplus of nitrogen relative to carbon.5. The primary advantage of selective feeding, particularly in dung with a high C/N ratio, may be to concentrate assimilable carbon in the ingested food. Effects of changing the MDIP within 20-106 µm are modest, especially in dung with a low C/N ratio.
AB - Most adult coprophagous beetles feed on fresh dung of mammalian herbivores, confining ingestion to small particles with measured maximum diameters from 2-5 to 130 µm, according to body size and kind of beetle. This study explores benefits and costs of selective feeding in a ‘typical' dung beetle with a maximum diameter of ingested particles (MDIP) of 20 µm. 2. Examined dung types (from Danish domestic sheep, cattle and horse, and African wild buffalo, white rhino and elephant) contained 76-89% water. Costs of a 20 µm MDIP were often low, since 69-87% of the total nitrogen in bulk dung other than that of elephant and rhino (40-58%) was available to selective feeders.3. Nitrogen concentrations were high - and C/N ratios low - in most types of bulk dung compared with the average food of terrestrial detritivores or herbivores. Exceptions were elephant and rhino dung with low nitrogen concentrations and high C/N ratios.4. Estimated C/N ratios of 13-39 in bulk dung (sheep-elephant) were decreased by selective feeding to 7.3-12.6 in the ingested material. In assimilated food, ratios are probably only 5-7, as most assimilable nitrogen and carbon may be of microbial origin. If so, the assimilable food contains a surplus of nitrogen relative to carbon.5. The primary advantage of selective feeding, particularly in dung with a high C/N ratio, may be to concentrate assimilable carbon in the ingested food. Effects of changing the MDIP within 20-106 µm are modest, especially in dung with a low C/N ratio.
U2 - 10.1111/j.1365-2311.2007.00915.x
DO - 10.1111/j.1365-2311.2007.00915.x
M3 - Journal article
VL - 32
SP - 1365
EP - 2311
JO - Ecological Entomology
JF - Ecological Entomology
SN - 0307-6946
ER -
ID: 21697831