Abstract
Patterned landscapes are characterized by the banding of perennial, usually dense vegetation on the contour, separated from more-or-less unvegetated soil. The vegetated section acts as a sink area, sequestering soil sediments, water, and nutrients shed from the bare source area immediately above it in the landscape. Water avail-ability is the driving force in patterned landscapes, controlling the structure and the dynamics of the vegetation. Runoff generated on the source zones is trapped on the upslope areas of the sink zones where infiltration proceeds. At the same time, erosion of the lower surface of the vegetated zone is occurring so that the vegetated band gradually moves upslope (Ambouta 1984; Thièry, d’Herbés, and Valentin 1995). Given the importance of overland flow in the formation and maintenance of patterned vegetation, it follows that factors that influence the amounts and distribution of runoff and infiltration will ultimately affect the patterning phenomenon itself.
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References
Aloni, K., and Soyer, J. 1987. Cycle des matèriaux de construction des termitiéres d’humi-vores en savane au Shaba mèridional (Zaire). Rev. Zool. Afr. 101: 329–358.
Ambouta, K. 1984. Contribution a l’èdaphologie de la Brousse tigrèe de l’Ouest Nigerien. Docteur-ingenieur thesis. Nancy: Nancy I University.
Andersen, A.N. 1990. The use of ant communities to evaluate change in Australian terrestrial ecosystems: a review and recipe. Proc. Ecol. Soc. Aust. 16: 347–357.
Andersen, A.N. 1991. Seed harvesting by ants in Australia. In Ant-plant interactions, eds. CR. Huxley and D.F Cutler, pp. 493–503 Oxford: Oxford Scientific Publications.
Andersen, A.N. 1993. Ants as indicators of restoration success at a uranium mine in tropical Australia. Rest. Ecol. 1: 156–167.
Bagine, R.K.N. 1984. Soil translocation by termites of the genus Odontotermes (Holgren) (Isoptera: Macrotermitinae) in an arid area of northern Kenya. Oecologia 64: 263–266.
Bailey, D., Mazurak, P.A., and Rosowski, J.R. 1973. Aggregation of soil particles by algae. J. Phycol. 9:99–101.
Belnap, J., and Gardner, J.S. 1993. Soil microstructure in soils of the Colorado Plateau: the role of the cyanobacterium Microcoleus vaginatus. Great Basin Nat. 53: 40–47.
Bevan, K., and Germann, P. 1982. Macropores and water flow in soils. Water Resour. Res. 18: 1311–1325.
Boyer, P. 1973. Action de certains Termites constructeurs sur l’évolution des sols tropicaux. lèere partie: Les termites et le sol. Ann. Sci. Nat. Zoo. 15(12e Serie): 329–498.
Bryannah, M. 1995. The use of ants as bioindicators of ecosystem health under grazing use in a patterned semi-arid mulga (Acacia aneura) woodland in eastern Australia. Unpublished BSc (Hons.) thesis. Canberra: Australian National University.
Burtt, B.B. 1942. Some East African vegetation communities. J. Ecol. 30: 65–146.
Buxton, R. 1979. The role of termites in the ecology of Tsavo National Park. Ph.D. Thesis. Oxford: Oxford University.
Casenave, A., and Valentin, C. 1989. Les ètats de surface de la zone sahèlienne. Influence sur l’infiltration. Paris: ORSTOM, Collection “Didactiques.”
Catcheside, D.G. 1980. Mosses of South Australia. Adelaide: D.J. Woolman, Government Printer.
Chaney, K., and Swift, R.S. 1986. Studies on aggregate stability. I. Re-formation of soil aggregates. J. Soil Sci. 37: 329–335.
Clos-Arceduc, M. 1956. Etude sur Photographie aèrienne d’une formation vègètale sahèlienne: la brousse tigrèe. Bull. IFAN Série A 7(3): 677–684.
Collinet, J., and Valentin, C. 1979. Analyse des differents facteurs intervenant sur l’hydro-dynamique superficielle. Nouvelles perspectives. Applications agronomiques. Cahairs ORSTOM Pedol. 17(4): 283–328.
Cornet, A.F., Montana, C, Delhoume, J.R, and López-Portillo, J. 1992. Water flows and the dynamics of desert vegetation stripes. In Landscape boundaries consequences for biotic diversity and ecological flows, eds. A.J. Hansen and F. di Castri, pp. 327–345. New York: Springer Verlag.
Curry, J.P., and Good, J.A. 1992. Soil faunal degradation and restoration. Adv. Soil Sci. 17: 171–215.
Danin, A., and Ganor, E. 1991. Trapping of airborne dust by mosses in the Negev Desert, Israel. Earth Surf. Process. Landf. 16: 153–162.
Darlington, J.P.E.C. 1982. The underground passages and storage pits used in foraging by a nest of the termite Macrotermes michaelseni in Kajiado, Kenya. J. Zool. 198: 237–247.
Davidson, D.W., and Morton, S.R. 1981. Myrmecochory in some plants (F. Chenopodiaceae) of the Australian arid zone. Oecologia 50: 357–366.
Dunkerley, D.L., and Brown, K.J. 1995. Runoff and runon areas in a patterned chenopod shrubland, arid western New South Wales, Australia: characteristics and origin. J. Arid Environ. 30: 41–55.
Eldridge, D.J., 1993. Cryptogam cover and soil surface condition: effects on hydrology on a semi-arid woodland soil. Arid Soil Res. Rehab. 7: 203–217.
Eldridge, D. J. 1994. Nests of ants and termites influence infiltration in a semi-arid woodland. Pedobiologia 38: 481–492.
Eldridge, D.J. 1999. Distribution and floristics of moss-and lichen-dominated soil crusts in a patterned Callitris glaucophylla woodland in eastern Australia. Acta Oecol. 20: 159–170.
Eldridge, D.J., and Bradstock, R.A. 1994. The effect of time since fire on the cover and composition of cryptogamic soil crusts on a Eucalyptus shrubland soil. Cunninghamia 3: 521–527.
Eldridge, D.J., and Greene, R.S.B. 1994. Assessment of sediment yield from a semi-arid red earth with varying cover of cryptogams. J. Arid Environ. 26: 221–232.
Eldridge, D.J., and Koen, T.B. 1998. Cover and floristics of microphytic soil crusts in relation to indices of landscape health. Plant Ecol. 137: 101–114.
Eldridge, D.J., and Leys, J.F. 1999. Wind dispersal of the vagant lichen Chondropsis semi-viridis in semi-arid eastern Australia. Aust. J. Bot. 47: 157–164.
Garner, W., and Steinberger, Y. 1989. A proposed mechanism for the formation of’ Fertile Islands’ in the desert ecosystem. J. Arid Environ. 16: 257–262.
Garnier-Sillam, E. 1989. The pedological role of fungus-growing termites (Termitidae: Macrotermitinae) in tropical environments, with special reference to Macrotermes muellerl Sociobiology 15: 181–196.
Ghabbour, S.I., El-Ayouty, E.Y., Khadr, M.S., and El-Tonsi, A.M. 1980. Grazing by micro-fauna and productivity of heterocystous nitrogen-fixing blue-green algae in desert soils. Oikos 34: 209–218.
Graetz, R.D., and Tongway, D.J. 1986. Influence of grazing management on vegetation, soil structure and nutrient distribution and the infiltration of applied rainfall in a semi-arid chenopod shrubland. Aust. J. Ecol. 11: 347–360.
Gravier, M., Riser, J., and Simon, B. 1994. Evolution climatique en Mauritanie, la degradation d’une formation vègètale sahèlienne: la brousse tigrèe du Tagant. Sècheresse 5: 257–263.
Greene, R.S.B. 1992. Soil physical properties of three geomorphic zones in a semi-arid mulga woodland. Aust. J. Soil Res. 30: 55–69.
Greene, R.S.B., and Tongway, D.J. 1989. The significance of (surface) physical and chemical properties in determining soil surface condition of red-earths in rangelands. Aust. J. Soil Res. 27:213–225.
Greene, R.S.B., Chartres, C.J., and Hodgkinson, K.C. 1990. The effects of fire on the soil in a degraded semi-arid woodland. I. Cryptogam cover and physical and micromorpho-logical properties. Aust. J. Soil Res. 28: 755–777.
Greenslade, P.J.M. 1987. Ants and scald reclamation by waterponding. J. Soil Conserv. NSW 43: 78–79.
Greenslade, PJ.M. 1993. Australian native steppe-type landscapes: neglected areas for in-vertebrate conservation. In Perspectives in insect conservation, eds. K.J. Gaston, T.R. New, and M.J. Samways, pp. 51–73. London: Intercept.
Greenslade, P.J.M., and Mott, J.J. 1983. Effects of fire on invertebrates in an Australian tropical grassland. In New trends in soil biology, eds. P. Lebryn, H.M. Andre, and A. Medts, pp. 625–637. Louvain-la-Neve, Belgium: Universite Catholique de Louvain.
Greenslade, P., and Smith, D. 1994. Soil faunal responses to restoration by mulching of de-graded semi-arid soils at Lake Mere, New South Wales. In Soil biota: management in sustainable farming systems, ed. C.E. Pankhurst, pp. 67–69. Melbourne: CSIRO.
Harper, K.T., and Marble, J.R. 1989. A role for non-vascular plants in management of arid and semi-arid rangelands. In Application of plant sciences to rangeland management and inventory, ed. P.T. Tueller, pp. 135–169. Amsterdam: Martinus Nijhoff/W. Junk.
Harper, K.T., and Pendleton, R.L. 1993. Cyanobacteria and cyanolichens: can they enhance availability of essential minerals for higher plants? Great Basin Nat. 53: 59–72.
Harper, K.T., and St. Clair, L.L. 1985. Cryptogamic soil crusts on arid and semiarid range-lands in Utah. Effects on seedling establishment and soil stability. Final report. Salt Lake City, UT: Bureau Land Management, Utah State Office.
Hesse, PR. 1955. A chemical and physical study of the soils of termite mounds in East Africa. J. Ecol. 43: 449–461.
Humphreys, G.S. 1981. The rate of ant mounding and earthworm casting near Sydney, New South Wales. Search 12: 129–131.
Isichei, A.O. 1990. The role of algae and cyanobacteria in arid lands. A review. Arid Soil Res. Rehab. 4: 1–17.
Janeau, J.L., and Valentin, C. 1987. Relations entre les termitiéres Trinervitermes sp. et la surface du sol: reorganisations, ruissellement et èrosion. Rev. Ecol. Biol. Sol. 24: 637–647.
Kabore, V., and Valdenaire, S. 1991. Contribution à l’ètude du zai, pratique culturale rèhabilitee au Yatenga, Burkina Faso: premiere approche de ses avantages et limites en tant qu’alternative pour les cultures en milieu sahèlien. Mèmoire de recherche. Lausanne: Federale Polytechnique University.
Kinneil, P.I.A., Chartres, C.J., and Watson, C.L. 1990. The effect of fire of the soil in a degraded semi-arid woodland. II. Susceptibility of the soil to erosion by shallow rain-impacted flow. Aust. J. Soil Res. 28: 779–794.
Lai, R. 1988. Effects of macrofauna on soil processes in tropical ecosystems. Agric. Ecosyst. Environ. 24: 101–116.
Lawton, J.H., and Jones, C.G. 1995. Linking species and ecosystems: organisms as ecosystem engineers. In Linking species and ecosystems, eds. C.G. Jones and J.H. Lawton, pp. 141–150. New York: Chapman and Hall.
Lee, K.E. 1992. Soil organisms and sustainable productivity. Aust. J. Soil Res. 30: 855–892.
Lee, K.E., and Wood, T.G. 1971. Termites and soils. New York: Academic Press.
Lepage, M. 1974. Recherches ècologiques sur une savane sahèlienne du Ferlo septentrional, Sènègal: influence de la sècheresse sur le peuplement en termites. Terre Vie 28: 76–94.
Lepage, M. 1981. L’impact des populations rècoltantes de Macrotermes michaelseni (Sjot-edt) (Isoptera, Macrotermmitinae) dans un ècosystem semi-aride (Kajiado, Kenya). 2. La nourriture rècoltèe, comparaison avec les grands herbivores. Insectes Soc. 28: 309–318.
Lepage, M. 1984. Distribution, density and evolution of Macrotermes bellicosus nests (Isoptera: Macrotermitinae) in the north-east of Ivory Coast, J. Anim. Ecol. 53: 107–117.
Leys, J.F., and Eldridge, D.J. 1998. Influence of cryptogamic crust disturbance to wind erosion on sand and loam rangeland soils. Earth Surf. Process. Landf. 23: 963–974.
Lobry de Bruyn, L.A., and Conacher, A.J. 1990. The role of termites and ants in soil modification: a review. Aust. J. Soil Res. 28: 55–93.
Lobry de Bruyn, L.A., and Conacher, A.J. 1994. The effect of ant biopores on water infiltration in soils in undisturbed bushland and in farmland in a semi-arid environment. Pe-dobiologia 38: 193–207.
Ludwig, J.A., and Tongway, D.J. 1993. Monitoring the condition of Australian arid lands: linked plant-soil indicators. In Ecological indicators, vol. 1, eds. D.H. McKenzie, D.E. Hyatt, and V.J. McDonald, pp. 765–772. Essex: Elsevier Applied Science.
Macfayden, W.A. 1950. Vegetation patterns in the semi-desert plains of British Somaliland. Geogr.J. 116: 199–211.
Malaisse, F. 1985. Comparaison of the woody structure in a regressive Zambezian succession with emphasis on high termitaria vegetation (Luiswishi, Shaba, Zaire). Bull. Soc. R. Bot. Belg. 118:244–265.
Malam Issa, O., Trichet, J., Defarge, C, Coute, A., and Valentin, C. 1999. Morphology and microstructure of microbiotic soil crusts on a tiger bush sequence (Niger, Sahel). Catena 37: 175–196.
Metting, B. 1991. Biological surface features of semiarid lands and deserts. In Semiarid lands and deserts: soil resource and reclamation, ed. J. Skujins, pp. 257–293. New York: Marcel Dekker, Inc.
Mucher, H.J., Chartres, C.J., Tongway, D.J., and Greene, R.S.B. 1988. Micromorphology and significance of the surface crusts of soils in rangelands near Cobar, Australia. Geo-derma 42: 227–244.
Noble, J.C., Diggle, P.J., and Whitford, W.G. 1989. The spatial distributions of termite pavements and hummock feeding sites in a semi-arid woodland in eastern Australia. Acta Oecol./Oecol. Gen. 10: 355–376.
Noble, J.C., Whitford, W.G., and Kaliszweski, M. 1996. Soil and litter microarthropod populations from two contrasting ecosystems in semi-arid eastern Australia. J. Arid Environ. 32(3): 329–346.
Ouedraogo, P. 1992. Role des termitières dans la dynamique d’un facies de brousse tigrèe soudano-sahèlienne: cas de la règion de Bidi au Nord-Yatenga (Burkina Faso). Rapport de DE A. Paris: Paris VI University.
Ouedraogo, P., and Lepage, M. 1994. Role des termitiéres dans la dynamique d’une brousse tigrèe soudano-sahèlienne. In Les insects sociaux, eds. A. Lenoir, G. Arnold, and M. Lepage, p. 488. Paris: Paris-Nord University.
Ouedraogo, P., and Lepage, M. 1997. Role des termitières de Macrotermes subhyalinus Rambur dans une brousse tigrèe (Yatenga, Burkina Faso). In Fonctionnement et gestion des ecosystèmes forestiers contractès Sahèliens, eds. J.M. d’Herbès, J.M. Ambouta, and R. Peltier, pp. 81–94. Paris: John Libbey Eurotext.
Parker, L.W., Santos, P.F., Philips, J., and Whitford, W.G. 1984. Carbon and nitrogen dynamics during the decomposition of litter and roots of a Chihuahuan Desert annual, Le-pidium lasiocarpum. Ecol. Monog. 54: 339–360.
Pomeroy, D.E. 1978. The abundance of large termite mounds in Uganda in relation to their environment. J. Appl. Ecol. 15: 51–63.
Rogers, R.W. 1974. Lichens from the T.G.B. Osborn vegetation reserve at Koonamore in arid South Australia. Trans. R. Soc. South. Aust. 98: 113–124.
Rogers, R.W., 1989. Blue-green algae in southern Australian rangeland soils. Aust. Rangel. J. 11:67–73.
Rogers, R.W, and Lange, R.T. 1971. Lichen populations on arid soil crusts around sheep watering places in South Australia. Oikos 22: 93–100.
Rychert, R., Skujins, J., Sorensen, D., and Porcella, D. 1978. Nitrogen fixation by lichens and free-living microorganisms in deserts. In Nitrogen in desert ecosystems, eds. N.E. West and J. Skujins, pp. 20–30. Stroudsburg, PA: Dowden, Hutchinson, and Ross.
Scott, G.A.M. 1982. Desert bryophytes. In Bryophyte ecology, ed. A.J.E. Smith, pp. 105–122. London: Chapman and Hall.
Skujins, J., and Klubek, B. 1978. Nitrogen fixation and denitrification in arid soil cryp-togamic crust microenvironments. In Environmental biogeochemistry and geomicrobi-ology, ed. W.E. Krumbein, vol. 2, pp. 543–552. Ann Arbor, MI: Ann Arbor Publ.
Smallwood, K.S. 1993. Understanding ecological pattern and process by association and order. Acta Ecol. 14: 443–462.
Spain, A.V., and Mclvor, J.G. 1988. The nature of herbaceous vegetation associated with termitaria in north-eastern Australia. J. Ecol. 76: 181–191.
Sprent, J.I. 1985. Nitrogen fixation in arid environments. In Plants for arid lands, eds. G.E. Wickens, J.R. Goodin, and D.V. Field, pp. 215–229. London: George Allen and Unwin.
Stafford Smith, D.M., and Pickup, G. 1990. Pattern and production in arid lands. Proc. Ecol. Soc.Aust. 16: 195–200.
Thièry, J.M., d’Herbés, J.M., and Valentin, C. 1995. A model simulating the genesis of banded vegetation patterns in Niger. J. Ecol. 83: 497–507.
Tongway, D.J. 1990. Soil and landscape processes in the restoration of rangelands. Aust. Rangel. J. 12: 54–57.
Tongway, D.J. 1991. Functional analysis of degraded rangelands as a means of defining appropriate restoration techniques. In Proceedings of the IVth international rangelands congress, Montpellier, France, eds. A. Gaston, M. Kernick, and H. LeHouérou, pp. 166–168. Montpellier: Association Française de Pastoralisme.
Tongway, D.J., and Hodgkinson, K.C. 1992. The effects of fire on soil in a degraded semi-arid woodland III: nutrient pool sizes, biological activity and herbage response. Aust. J. Soil Res. 30: 17–26.
Tongway, D.J., and Ludwig, J.A. 1990. Vegetation and soil patterning in semi-arid mulga lands of eastern Australia. Aust. Rangel. J. 11: 5–20.
Tongway, D.J., and Ludwig, JA. 1994. Small-scale resource heterogeneity in semi-arid landscapes. Pac. Conserv. Biol. 1: 201–208.
Tongway, D.J., and Smith, E.L. 1989. Soil surface features as indicators of rangeland site productivity. Aust. Rangel. J. 11: 15–20.
Tongway, D.J., Ludwig, J.A., and Whitford, W.G. 1989. Mulga log mounds: fertile patches in the semi-arid woodlands of eastern Australia. Aust. J. Ecol. 14: 263–268.
Troll, C. 1936. Termitensavannen. In Landekundliche Forschrift Festschrift fur Norbert Krebs, pp. 275–312. Stuttgart: Englehorn.
Valentin, C. 1995. Sealing, crusting and hardsetting soils in Sahelian agriculture. In Sealing, crusting and hardsetting soils; productivity and conservation, eds. G.D. Smith, G.R. Raine, B.M. Schafer, and R.J. Loch, pp. 53–76. Brisbane: Australian Society of Soil Science (Queensland Branch).
Valentin, C., and Bresson, L.M. 1992. Morphology, genesis and classification of surface crusts in loamy and sandy soils. Geoderma 55: 225–245.
Valentin, C., and Casenave, A. 1990. The impact of soil surface deterioration on runoff production in the arid and semi-arid zones of Africa. In The state of the art of hydrology and hydrogeology in the arid and semi-arid zones of Africa, pp. 126–134. Urbana, IL: UNESCO/Intern. Water Resourc. Assoc.
Valentin, C., Collinet, J., and Albergel, J. 1994. Assessing erosion in West Africa savannas under global change: overview and research needs. Niamey: ORSTOM.
Wallwork, J.A. 1976. The distribution and diversity of soil fauna. New York: Academic Press.
Watson, J.A., and Gay, F.J. 1970. The role of grass eating termites in the degradation of a mulga ecosystem. Search 1: 43.
Watson, J.A.L., Barrett, R.A., and Lendon, C. 1978. Termites. In The physical and biological features of Kunoth paddock in central Australia, ed. W.A. Low, pp. 101–108. Melbourne: CSIRO Div. Land Resources Mgmt.
West, N.E. 1990. Structure and function of microphytic soil crusts in wildland ecosystems of arid and semi-arid regions. Adv. Ecol. Res. 20: 179–223.
Whitford, W.G., and Herrick, J.E. 1996. Maintaining soil processes for plant productivity and community dynamics. In Proceedings of Vth international rangelands congress, July 1995, Salt Lake City, Utah, ed. N.E. West, pp. 33–37. Denver: Society for Range Management.
Whitford, W.G., and Parker, L.W 1989. Contributions of soil fauna to decomposition and mineralization processes in semiarid and arid ecosystems. Arid Soil Res. Rehab. 3:199–215.
Whitford, W.G., Ludwig, J.A., and Noble J.C. 1992. The importance of subterranean termites in semi-arid ecosystems in south-eastern Australia. J. Arid Environ. 22:87–91.
White, L.P. 1971. Vegetation stripes on sheet wash surfaces. J. Ecol. 59: 615–622.
Williams, J., Helyar, K.R., Greene, R.S.B., and Hook, R.A. 1993. Soil characteristics and processes critical to the sustainable use of grasslands in arid, semi-arid and seasonally dry environments. In Proceedings of the XVII international grasslands congress, Palmer-ston North, New Zealand, pp. 1335–1350. Auckland: New Zealand Grassland Association.
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Eldridge, D.J., Lepage, M., Bryannah, M.A., Ouedraogo, P. (2001). Soil Biota in Banded Landscapes. In: Tongway, D.J., Valentin, C., Seghieri, J. (eds) Banded Vegetation Patterning in Arid and Semiarid Environments. Ecological Studies, vol 149. Springer, New York, NY. https://doi.org/10.1007/978-1-4613-0207-0_6
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