nach oben

Biodiversity and Conservation

Erschienen in:

01.07.2015 | Original Paper

Plant and arthropod diversity patterns of maize agro-ecosystems in two grassy biomes of South Africa

verfasst von: M. Botha, S. J. Siebert, J. van den Berg, B. G. Maliba, S. M. Ellis

Erschienen in: Biodiversity and Conservation | Ausgabe 7/2015

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

Intensive, large-scale cultivation has led to a postulated decrease in biodiversity worldwide, which has been ascribed to fragmentation and degradation of natural habitat bordering crop fields. Maize is the most widely planted grain crop in Grassland and Savanna Biomes of South Africa, but the effect that crop production has on surrounding species diversity and composition is unknown. This study intends to address this knowledge gap by comparing diversity patterns and species assemblages between maize fields and margins of six localities in South Africa across two biomes for plants and associated arthropods. A total of 15,019 individuals and 824 native and exotic plant species were recorded and 39 497 individuals and 1 629 morpho-species for arthropods. Although biodiversity loss was apparent in maize fields, plant and arthropod diversity remained the same for rangeland at shorter (30–100 m) and longer (100–400 m) distances from maize fields, suggesting that distance from maize fields had no effect on biodiversity patterns beyond 30 m. Plant species assemblages were best correlated with agricultural disturbance while arthropod communities were mainly correlated with biome. Our results suggest that the crop field margins (30–100 m from field edge) were not species poor ecosystems, but were surprisingly rich in plant and arthropod diversity. Field margins may therefore be of conservation value in the agricultural landscape with a diversity of species supporting important ecosystem services.

Vorheriger Artikel Protecting the breeders: research informs legislative change in a marine turtle fishery

Nächster Artikel Greenhouses: hotspots in the invasive network for alien species

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Nur mit Berechtigung zugänglich

A complete list of all recorded plant and arthropod taxa is available in online resources 1 and 2.

Aizen MA, Garibaldi LA, Cunningham SA et al (2008) Long-term global trends in crop yield and production reveal no current pollination shortage but increasing pollinator dependency. Curr Biol 18(20):1572–1575PubMedCrossRef

Alomar Ò, Goula M, Albajes R (2002) Colonisation of tomato fields by predatory mirid bugs (Hemiptera: Heteroptera) in northern Spain. Agric Ecosyst Environ 89(1–2):105–115CrossRef

Altieri MA (1999) The ecological role of biodiversity in agroecosystems. Agric Ecosyst Environ 74(1–3):19–31CrossRef

Beckie HJ, Hall LM (2008) Simple to complex: modelling crop pollen-mediated gene flow. Plant Sci 175(5):615–628CrossRef

Begon M, Townsend CR, Harper JL (2008) Ecology: From individuals to ecosystems. Blackwell Publishing Ltd, New York

Bond WJ (1989) Describing and conserving biotic diversity. In: Huntley BJ (ed) Biotic diversity in Southern Africa: concepts and conservation. Oxford University Press, Cape Town, pp 2–18

Boutin C, Jobin B (1998) Intensity of agricultural practices and effects on adjacent habitats. Ecol Appl 8(2):544–557CrossRef

Boutin C, Baril A, Martin PA (2008) Plant diversity in crop fields and woody hedgerows of organic and conventional farms in contrasting landscapes. Agric Ecosyst Environ 123(1–3):185–193CrossRef

Bundschuh R, Schmitz J, Bundschuh M et al (2012) Does insecticide drift adversely affect grasshoppers (Orthoptera: Saltatoria) in field margins? A case study combining laboratory acute toxicity testing with field monitoring data. Environ Toxicol Chem 31(8):1874–1879PubMedCrossRef

Caballero-López B, Blanco-Moreno JM, Pérez N et al (2010) A functional approach to assessing plant–arthropod interaction in winter wheat. Agric Ecosyst Environ 137(3–4):288–293CrossRef

Carrière Y, Ellers-Kirk C, Cattaneo MG et al (2009) Landscape effects of transgenic cotton on non-target ants and beetles. Basic Appl Ecol 10(7):597–606CrossRef

Chapin FS, Zavaleta ES, Eviner VT et al (2000) Consequences of changing biodiversity. Nature 405(6783):234–242PubMedCrossRef

Çilgi T, Jepson PC (1995) The risks posed by deltamethrin drift to hedgerow butterflies. Environ Pollut 87(1):1–9PubMedCrossRef

Clarke KR, Gorley RN (2006) PRIMER version 6: user manual/tutorial. PRIMER-E, Plymouth

Cohen J (1988) Statistical power analysis for behavioural sciences, 2nd edn. Hillsdale, New York

Culpepper AS (2006) Glyphosate-induced weed shifts 1. Weed Technol 20(2):277–281CrossRef

Curry JP (1994) Grassland invertebrates: ecology, influence on soil fertility, and effects on plant growth. Chapman & Hall, London

Darkoh MBK (2003) Agriculture and biodiversity in the drylands of Africa. In: Darkoh MBK, Rwomire A (eds) Human impact on environment and sustainable development in Africa. Ashgate Publishing Ltd., Hampshire, pp 253–276

De Cauwer B, Reheul D, Nijs I et al (2006) Effect of margin strips on soil mineral nitrogen and plant biodiversity. Agron Sustain Dev 26(2):117–126CrossRef

De Snoo GR, de Wit PJ (1998) Buffer zones for reducing pesticide drift to ditches and risks to aquatic organisms. Ecotoxicol Environ Saf 41(1):112–118PubMedCrossRef

De Snoo GR, van der Poll RJ (1999) Effect of herbicide drift on adjacent boundary vegetation. Agric Ecosyst Environ 73(1):1–6CrossRef

Denys C, Tscharntke T (2002) Plant-insect communities and predator-prey ratios in field margin strips, adjacent crop fields, and fallows. Oecologia 130(2):315–324CrossRef

Department of Environmental Affairs and Tourism (DEAT) (2005) South Africa’s National Biodiversity Strategy and Action Plan. http://www.info.gov.za/view/DownloadFileAction?id=175649. Accessed 20 Jun 2013

Devos Y, Demont M, Dillen K et al (2009) Coexistence of genetically modified (GM) and non-GM crops in the European Union: a review. Agron Sustain Dev 29(1):11–30CrossRef

Dietrick E, Schlinger E, Garber M (1960) Vacuum cleaner principle applied in sampling insect populations in alfalfa fields by new machine method. Calif Agric 14(1):9–11

Duelli P, Obrist MK (2003) Regional biodiversity in an agricultural landscape: the contribution of seminatural habitat islands. Basic Appl Ecol 4(2):129–138CrossRef

Duelli P, Obrist MK, Schmatz DR (1999) Biodiversity evaluation in agricultural landscapes: above-ground insects. Agric Ecosyst Environ 74(1–3):33–64CrossRef

Eckert J, Schuphan I, Hothorn L et al (2006) Arthropods on maize ears for detecting impacts of Bt maize on nontarget organisms. Environ Entomol 35(2):554–560CrossRef

Elliott NC, Tao FL, Fuentes-Granados R et al (2006) D-vac sampling for predatory arthropods in winter wheat. Biol Control 38(3):325–330CrossRef

Ellis S, Steyn H (2003) Practical significance (effect sizes) versus or in combination with statistical significance (p-values): research note. J S Afr Inst Man Sci 12(4):51–53

Feber RE, Smith H, MacDonald DW (1996) The effects on butterfly abundance of the management of uncropped edges of arable fields. J Appl Ecol 33(5):1191–1205CrossRef

Fridley J, Senft A, Peet R (2009) Vegetation structure of field margins and adjacent forests in agricultural landscapes of the North Carolina Piedmont. Castanea 74(4):327–339CrossRef

Garibaldi LA, Steffan-Dewenter I, Kremen C et al (2011) Stability of pollination services decreases with isolation from natural areas despite honey bee visits. Ecol Lett 14(10):1062–1072PubMedCrossRef

Gove B, Power SA, Buckley GP et al (2007) Effects of herbicide spray drift and fertilizer overspread on selected species of woodland ground flora: comparison between short-term and long-term impact assessments and field surveys. J Appl Ecol 44(2):374–384CrossRef

Gurr MG, Wratten SD, Snyder WE (eds) (2012) Biodiversity and insect pest management. Key issues for sustainable management. Wiley, West Sussex

Hammer Ø, Harper DAT, Ryan PD et al (2001) PAST: Paleontological Statistics software package for education and data analysis. Palaeontol Electron 4(1):XIX–XXX

Hamre LN, Halvorsen R, Edvardsen A et al (2010) Plant species richness, composition and habitat specificity in a Norwegian agricultural landscape. Agric Ecosyst Environ 138(3–4):189–196CrossRef

Hancock GR, Mueller RO (eds) (2010) The reviewer’s guide to quantitative methods in the social sciences. Routledge, New York

Hannon P (2012) African agriculture review 2012. http://www.capital.nedbank.co.za/nedbank/action/media/downloadFile?media_fileid=808. Accessed 21 June 2013

Hendrickx F, Maelfait J, Van Wingerden W et al (2007) How landscape structure, land-use intensity and habitat diversity affect components of total arthropod diversity in agricultural landscapes. J Appl Ecol 44(2):340–351CrossRef

Hill DA, Fasham M, Tucker P et al (2005) Handbook of biodiversity methods: survey, evaluation and monitoring. Cambridge University Press, CambridgeCrossRef

Hillebrand H, Bennett DM, Cadotte MW (2008) Consequences of dominance: a review of evenness effects on local and regional ecosystem processes. Ecology 89(6):1510–1520PubMedCrossRef

Hofmann F, Epp R, Kruse L et al (2010) Monitoring of Bt-Maize pollen exposure in the vicinity of the nature reserve Ruhlsdorfer Bruch in northeast Germany 2007 to 2008. Umweltwiss Schadst Forsch 22(3):229–251CrossRef

Ingham DS, Samways MJ (1996) Application of fragmentation and variegation models to epigaeic invertebrates in South Africa. Conserv Biol 10(5):1353–1358CrossRef

Khan ZR, Hassanali A, Pickett JA (2006) Managing polycropping to enhance soil system productivity: a case study from Africa. In: Uphoff N (ed) Biological approaches to sustainable soil systems. CRC Press, New York, pp 575–586CrossRef

Kirchner TB (1977) The effects of resource enrichment on the diversity of plants and arthropods in a shortgrass prairie. Ecology 58(6):1334–1344CrossRef

Kiss J, Penksza K, Toth F et al (1997) Evaluation of fields and field margins in nature production capacity with special regard to plant protection. Agric Ecosyst Environ 63(2):227–232CrossRef

Kleijn D, Snoeijing GI (1997) Field boundary vegetation and the effects of agrochemical drift: botanical change caused by low levels of herbicide and fertilizer. J Appl Ecol 34(6):1413–1425CrossRef

Klein A, Vaissiere BE, Cane JH et al (2007) Importance of pollinators in changing landscapes for world crops. Proc Roy Soc B 274(1608):303–313CrossRef

Kremen C, Colwell RK, Erwin TL et al (1993) Terrestrial arthropod assemblages: their use in conservation planning. Conserv Biol 7(4):796–808CrossRef

Leeson JY, Thomas AG, Sheard JW (2005) Weed distribution across field boundaries adjacent to roadsides. In: Thomas AG (ed) Field boundary habitats: implications for weed, insect and disease management. Canadian Weed Science Society, Québec

Liira J, Schmidt T, Aavik T et al (2008) Plant functional group composition and large-scale species richness in European agricultural landscapes. J Veg Sci 19(1):3–14CrossRef

Ma M (2008) Multi-scale responses of plant species diversity in semi-natural buffer strips to agricultural landscapes. Appl Veg Sci 11(2):269–278CrossRef

Magurran AE (1988) Ecological diversity and its measurement. Princeton University Press, New JerseyCrossRef

Magurran AE (2004) Measuring biological diversity. Blackwell Publishing, Oxford

Marrs RH (1993) Soil fertility and nature conservation in europe: theoretical considerations and practical management solutions. In: Begon M, Fitter AH (eds) Advances in ecological research, vol 24. Academic Press, London

Marshall EJP (1989) Distribution patterns of plants associated with arable field edges. J Appl Ecol 26(1):247–257CrossRef

Marshall E, Arnold G (1995) Factors affecting field weed and field margin flora on a farm in Essex, UK. Landsc Urban Plan 31(1):205–216CrossRef

Marshall EJP, Moonen AC (2002) Field margins in northern Europe: their functions and interactions with agriculture. Agric Ecosyst Environ 89(1–2):5–21CrossRef

Matson PA, Parton WJ, Power AG et al (1997) Agricultural intensification and ecosystem properties. Science 277(5325):504–509PubMedCrossRef

McKinney ML, Lockwood JL (1999) Biotic homogenization: a few winners replacing many losers in the next mass extinction. Trends Ecol Evol 14(11):450–453PubMedCrossRef

McKone MJ, McLauchlan KK, Lebrun EG et al (2001) An edge effect caused by adult corn-rootworm beetles on sunflowers in tallgrass prairie remnants. Conserv Biol 15(5):1315–1324CrossRef

Meissle M, Alvarez-Alfageme F, Malone LA et al (2012) Establishing a database of bio-ecological information on non-target arthropod species to support the environmental risk assessment of genetically modified crops in the EU. Supporting Publications, European Food Safety Authority (EFSA), Parma, Italy

Messeguer J, Peñas G, Ballester J et al (2006) Pollen-mediated gene flow in maize in real situations of coexistence. Plant Biotechnol J 4(6):633–645PubMedCrossRef

Moolman J, Van den Berg J, Conlong D et al (2013) Species diversity and distribution of lepidopteran stem borers in South Africa and Mozambique. J Appl Entomol 137(9):641–720CrossRef

Mucina L, Rutherford MC (2006) The vegetation of South Africa, Lesotho and Swaziland, Strelitzia, vol. 19. South African National Biodiversity Institute, Pretoria

Murdoch WW, Evans FC, Peterson CH (1972) Diversity and pattern in plants and insects. Ecology 53(5):819–829CrossRef

Niedrist G, Tasser E, Lüth C et al (2009) Plant diversity declines with recent land use changes in European Alps. Plant Ecol 202(2):195–210CrossRef

Norris RF, Kogan M (2000) Interactions between weeds, arthropod pests, and their natural enemies in managed ecosystems. Weed Sci 48(1):94–158CrossRef

Oksanen J (2011) Multivariate analysis of ecological communities in R: vegan tutorial. R package version 1. http://phylodiversity.net/azanne/csfar/images/8/85/Vegan.pdf. Accessed 8 Dec 2014

Oleszczuk M, Ulikowska M, Kujawa K (2010) Effect of distance from forest edge on the distribution and diversity of spider webs in adjacent maize field. Pol J Ecol 58(4):759–768

Oliver I, Beattie AJ (1996) Designing a cost-effective invertebrate survey: a test of methods for rapid assessment of biodiversity. Ecol Appl 6(2):594–607CrossRef

Picker M, Griffiths C, Weaving A (2004) Field guide to insects of South Africa. Struik Publishers, Cape Town

Pielou EC (1975) Ecological diversity. Wiley, New York

Piessens K, Honnay O, Devlaeminck R et al (2006) Biotic and abiotic edge effects in highly fragmented heathlands adjacent to cropland and forest. Agric Ecosyst Environ 114(2):335–342CrossRef

Pimentel D (1961) Species diversity and insect population outbreaks. Ann Entomol Soc Am 54(1):76–86CrossRef

Ponce C, Bravo C, Alonso JC (2014) Effects of agri-environmental schemes on farmland birds: do food availability measurements improve patterns obtained from simple habitat models? Ecol Evol 4(14):2834–2847PubMedCentralPubMedCrossRef

Procheş Ş, Cowling RM (2007) Do insect distributions fit our biomes? S Afr J Sci 103(5):258–261

Ratnadass A, Fernandes P, Avelino J et al (2012) Plant species diversity for sustainable management of crop pests and diseases in agroecosystems: a review. Agron Sustain Dev 32(1):273–303CrossRef

Rodríguez JP, Barrera RR, Pearson DL (1998) A test for the adequacy of bioindicator taxa: are tiger beetles (Coleoptera: Cicindelidae) appropriate indicators for monitoring the degradation of tropical forests in Venezuela? Biol Conserv 83(1):69–76CrossRef

Root RB (1973) Organization of a plant-arthropod association in simple and diverse habitats: the fauna of collards (Brassica Oleracea). Ecol Monogr 43(1):95–124CrossRef

Rosi-Marshall EJ, Tank JL, Royer TV et al (2007) Toxins in transgenic crop byproducts may affect headwater stream ecosystems. Proc Natl Acad Sci USA 104(41):16204–16208PubMedCentralPubMedCrossRef

Samways M (1984) A practical comparison of diversity indices based on a series of small agricultural ant communities. Phytophylactica 16(4):275–278

Sanvido O, Widmer F, Winzeler M et al (2008) Definition and feasibility of isolation distances for transgenic maize cultivation. Transgenic Res 17(3):317–335PubMedCrossRef

Schadek U, Strauss B, Biedermann R et al (2009) Plant species richness, vegetation structure and soil resources of urban brownfield sites linked to successional age. Urban Ecosyst 12(2):115–126CrossRef

Schaffers AP, Raemakers IP, Sýkora KV et al (2008) Arthropod assemblages are best predicted by plant species composition. Ecology 89(3):782–794PubMedCrossRef

Schellhorn NA, Sork VL (1997) The impact of weed diversity on insect population dynamics and crop yield in collards, Brassica oleraceae (Brassicaceae). Oecologia 111(2):233–240CrossRef

Scholtz CH, Holm E (eds) (1985) Insects of Southern Africa. Butterworths, Durban

Siebert SJ (2011) Patterns of plant species richness of temperate and tropical grassland in South Africa. Plant Ecol Evol 144(3):249–254CrossRef

Siemann E (1998) Experimental tests of effects of plant productivity and diversity on grassland arthropod diversity. Ecology 79(6):2057–2070CrossRef

Siemann E, Tilman D, Haarstad J et al (1998) Experimental tests of the dependence of arthropod diversity on plant diversity. Am Nat 152(5):738–750PubMedCrossRef

Southwood R, Henderson PA (2000) Ecological methods. Blackwell Science, Oxford

Stary P, Pike KS (1999) Uses of beneficial insect diversity in agroecosystem management. In: Collins WW, Qualset CO (eds) Biodiversity in agroecosystems. CRC Press, Boca Raton

Germishuizen G, Meyer NL, Steenkamp, Y, Keith, M (eds) (2006) A checklist of South African plants. Southern African Botanical Diversity Network Report No. 41. Sabonet, Pretoria

Strong DR, Lawton JH, Southwood R (1984) Insects on plants: community patterns and mechanisms. Cambridge University Press, Cambridge

Symstad AJ, Siemann E, Haarstad J (2000) An experimental test of the effect of plant functional group diversity on arthropod diversity. Oikos 89(2):243–253CrossRef

Szinicz G (2005) Biodiversity and arthropod abundance in the upland of Leyte, Philippines. Unpublished Ph.D. thesis, University of Hohenheim, München

Tainton NM (1999) Veld management in South Africa. University of Natal Press, Pietermaritzburg

Ter Braak CJ (1986) Canonical correspondence analysis: a new eigenvector technique for multivariate direct gradient analysis. Ecology 67(5):1167–1179CrossRef

Thomas CFG, Marshall EJP (1999) Arthropod abundance and diversity in differently vegetated margins of arable fields. Agric Ecosyst Environ 72(2):131–144CrossRef

Tivy J (1990) Agricultural Ecology. Wiley, New York

Van Oudtshoorn F, Brown L, Kellner K (2011) The effect of reseeding methods on secondary succession during cropland restoration in the highveld region of South Africa. Afr J Range For Sci 28(1):1–8CrossRef

Viljoen C, Chetty L (2011) A case study of GM maize gene flow in South Africa. Environ Sci Eur 23(1):1–8CrossRef

Wessels KJ, Reyers B, Van Jaarsveld AS et al (2003) Identification of potential conflict areas between land transformation and biodiversity conservation in north-eastern South Africa. Agric Ecosyst Environ 95(1):157–178CrossRef

Wissinger SA (1997) Cyclic colonization in predictably ephemeral habitats: a template for biological control in annual crop systems. Biol Control 10(1):4–15CrossRef

Yachi S, Loreau M (1999) Biodiversity and ecosystem productivity in a fluctuating environment: the insurance hypothesis. Proc Natl Acad Sci USA 96(4):1463–1468PubMedCentralPubMedCrossRef

Titel: Plant and arthropod diversity patterns of maize agro-ecosystems in two grassy biomes of South Africa
verfasst von: M. Botha
S. J. Siebert
J. van den Berg
B. G. Maliba
S. M. Ellis
Publikationsdatum: 01.07.2015
Verlag: Springer Netherlands
Erschienen in: Biodiversity and Conservation / Ausgabe 7/2015
Print ISSN: 0960-3115
Elektronische ISSN: 1572-9710
DOI: https://doi.org/10.1007/s10531-015-0901-0

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 7/2015

The importance of microphytic composition on coarse woody debris for nematode colonization: a case study in a fluvial floodplain environment

Global large carnivore conservation and international law

Different patterns in species richness and community composition between trees, plants and epiphytic lichens in semi-natural pastures under agri-environment schemes

Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management

Microarthropod communities of industrially disturbed or imported soils in the High Arctic; the abandoned coal mining town of Pyramiden, Svalbard

Protecting the breeders: research informs legislative change in a marine turtle fishery