Abiotic controls on the functional structure of soil food webs [1]
| Title | Abiotic controls on the functional structure of soil food webs |
| Publication Type | Journal Article |
| Year of Publication | 1989 |
| Authors | Whitford WG [2] |
| Journal | Biology and Fertility of Soils |
| Volume | 8 |
| Pagination | 1-6 |
| Date Published | 1989 |
| Accession Number | JRN00089 |
| Call Number | 00388 |
| Keywords | abiotic,food webs [3], anhydrobiosis [4], article [5], articles [6], bacteria,food web [7], cryptobiosis [8], food web, abiotic controls [9], fungi,food web [10], journal [11], journals [12], mite,food web [13], nematode,food web [14], protozoa,food web [15], soil, food web [16] |
| Abstract | The hypothesis that the trophic structure of soil food webs changes as a result of the abiotic environment was examined by reviewing studies of soil biota. In dry soils with a water potential below -1.5 MPa, most bacteria, protozoans, and many species of nematodes are not active. These taxa persist in the soil in a state of anhydrobiosis. Because soil fungi grow at soil water potentials of -6.0 to -8.0 MPa, soil food webs in dry environments appear to be fungal-based and fungal grazers in dry environments appear to be predominantly fungiphagous mites. There is indirect evidence that some species of fungiphagous mites remain inactive in dry soils in a state of "crytobiosis". In habitats where there is insufficient vegetative cover to shade and modify the soil surface, the functional soil food web consists of fungi and a few taxa of soil acari for extended periods of time. |
| URL | files/bibliography/JRN00089.pdf [17] |
| DOI | 10.1007/BF00260508 [18] |
PDF:
JRN00089.pdf [19]
