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01.12.2014 | Review

Anthropogenic Land Use Change and Infectious Diseases: A Review of the Evidence

verfasst von: Nicole L. Gottdenker, Daniel G. Streicker, Christina L. Faust, C. R. Carroll

Erschienen in: EcoHealth | Ausgabe 4/2014

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Abstract

Humans have altered ecosystems worldwide, and it is important to understand how this land use change impacts infectious disease transmission in humans and animals. We conducted a systematic review 305 scientific articles investigating how specific types of anthropogenic land use change influence infectious disease dynamics. We summarized findings, highlighted common themes, and drew attention to neglected areas of research. There was an increase in publications on this topic over the last 30 years spanning diseases of humans, livestock, and wildlife, including a large number of zoonotic pathogens. Most papers (66.9%) were observational, 30.8% were review or concept papers, and few studies (2.3%) were experimental in nature, with most studies focusing on vector-borne and/or multi-host pathogens. Common land use change types related to disease transmission were deforestation/forest fragmentation/habitat fragmentation, agricultural development/irrigation, and urbanization/suburbanization. In response to anthropogenic change, more than half of the studies (56.9%) documented increased pathogen transmission, 10.4% of studies observed decreased pathogen transmission, 30.4% had variable and complex pathogen responses, and 2.4% showed no detectable changes. Commonly reported mechanisms by which land use change altered infectious disease transmission included alteration of the vector, host, and pathogen niche, changes in host and vector community composition, changes in behavior or movement of vectors and/or hosts, altered spatial distribution of hosts and/or vectors, and socioeconomic factors, and environmental contamination. We discussed observed patterns in the literature and make suggestions for future research directions, emphasizing the importance of ecological and evolutionary theory to understand pathogen responses in changing landscapes.

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Allan B. F., H. P. Dutra, L. S. Goessling, K. Barnett, J. M. Chase, R. J. Marquis, G. Pang, G. A. Storch, R. E. Thach, J. L. Orrock (2010). Invasive honeysuckle eradication reduces tick-borne disease risk by altering host dynamics. Proceedings of the National Academy of Sciences of the United States of America 107(43):18523-18527.CrossRefPubMedCentralPubMed

Amo, L., P. Lopez and J. Martin (2007). “Habitat deterioration affects body condition of lizards: A behavioral approach with Iberolacerta cyreni lizards inhabiting ski resorts.” Biological Conservation 135(1): 77-85.CrossRef

Baeza A, Bouma MJ, Dhiman R, Pascual M (2014) Malaria control under unstable dynamics: reactive vs. climate-based strategies. Acta Tropica 129:42–51

Beldomenico, P. M. and M. Begon (2010). “Disease spread, susceptibility and infection intensity: vicious circles?” Trends Ecol Evol 25(1): 21-27.CrossRef

Beyer, H. L., K. Hampson, T. Lembo, S. Cleaveland, M. Kaare and D. T. Haydon (2011). “Metapopulation dynamics of rabies and the efficacy of vaccination.” Proc Biol Sci 278(1715): 2182-2190.CrossRefPubMedCentralPubMed

Boots, M. and R. G. Bowers (2004). “The evolution of resistance through costly acquired immunity.” Proc Biol Sci 271(1540): 715-723.CrossRefPubMedCentralPubMed

Budischak, S. A., A. E. Jolles and V. O. Ezenwa (2012). “Direct and indirect costs of co-infection in the wild: Linking gastrointestinal parasite communities, host hematology, and immune function.” Int J Parasitol Parasites Wildl 1: 2-12.PubMedCentralPubMed

Burney, D. A. and T. F. Flannery (2005). “Fifty millennia of catastrophic extinctions after human contact.” Trends Ecol Evol 20(7): 395-401.CrossRef

Ceballos, L. A., M. V. Cardinal, G. M. Vazquez-Prokopec, M. A. Lauricella, M. M. Orozco, R. Cortinas, A. G. Schijman, M. J. Levin, U. Kitron and R. E. Gurtler (2006). “Long-term reduction of Trypanosoma cruzi infection in sylvatic mammals following deforestation and sustained vector surveillance in northwestern Argentina.” Acta Trop 98(3): 286-296.CrossRefPubMedCentralPubMed

Chaves, L. F., J. M. Cohen, M. Pascual, M. L. Wilson (2008) Social exclusion modifies climate and deforestation impacts on a vector-borne disease. PLoS Neglected Tropical Diseases 2(2):176.CrossRefPubMedCentralPubMed

Colwell, R. K. and T. F. Rangel (2009). “Hutchinson’s duality: the once and future niche.” Proceedings of the National Academy of Sciences of the United States of America 106 Suppl 2: 19651-19658.CrossRefPubMedCentralPubMed

de Castro MC, Monte-Mor RL, Sawyer DO, Singer BH (2006) Malaria risk on the Amazon frontier. Proceedings of the National Academy of Sciences of the United States of America 103(7):2452–2457

Dennehy, J. J., N. A. Friedenberg, R. D. Holt and P. E. Turner (2006). “Viral ecology and the maintenance of novel host use.” Am Nat 167(3): 429-439.CrossRefPubMed

Despommier, D., B. R. Ellis and B. A. Wilcox (2006). “The role of ecotones in emerging infectious diseases.” EcoHealth 3(4): 281-289.CrossRef

Dobson, A. (2004). “Population dynamics of pathogens with multiple host species.” Am Nat 164 Suppl 5: S64-78.CrossRefPubMed

Dobson, A., I. Cattadori, R. D. Holt, R. S. Ostfeld, F. Keesing, K. Krichbaum, J. R. Rohr, S. E. Perkins, P. J. Hudson (2006) Sacred cows and sympathetic squirrels: the importance of biological diversity to human health. PLoS Med 3(6):e231.CrossRefPubMedCentralPubMed

Eliseev, L. N., M. V. Strelkova, I. I. Zherikhina (1991) The characteristics of the epidemic activation of a natural focus of zoonotic cutaneous leishmaniasis in places with a sympatric dissemination of Leishmania major, L. turanica and L. gerbilli. Meditsinskaia parazitologiia i parazitarnye bolezni 3:24-29.PubMed

Ellis, E. C. and N. Ramankutty (2008). “Putting people in the map: anthropogenic biomes of the world.” Frontiers in Ecology and the Environment 6(8): 439-447.CrossRef

Ezenwa, V. O. and A. E. Jolles (2011). “From host immunity to pathogen invasion: the effects of helminth coinfection on the dynamics of microparasites.” Integr Comp Biol 51(4): 540-551.CrossRefPubMed

Ezenwa, V. O., R. S. Etienne, G. Luikart, A. Beja-Pereira and A. Jolles (2010). “Hidden consequences of living in a wormy world: nematode-induced immune suppression facilitates tuberculosis invasion in African buffalo.” Am Nat 176(5): 613-624.CrossRefPubMed

Ezenwa, V. O., N. M. Gerardo, D. W. Inouye, M. Medina and J. B. Xavier (2012). “Microbiology. Animal behavior and the microbiome.” Science 338(6104): 198-199.CrossRefPubMed

Fenton, A. and A. B. Pedersen (2005). “Community epidemiology framework for classifying disease threats.” Emerging Infectious Diseases 11(12): 1815.CrossRefPubMedCentralPubMed

Fokidis, H. B., M. Orchinik and P. Deviche (2009). “Corticosterone and corticosteroid binding globulin in birds: relation to urbanization in a desert city.” Gen Comp Endocrinol 160(3): 259-270.CrossRefPubMed

Foley, J. A., R. Defries, G. P. Asner, C. Barford, G. Bonan, S. R. Carpenter, F. S. Chapin, M. T. Coe, G. C. Daily, H. K. Gibbs, J. H. Helkowski, T. Holloway, E. A. Howard, C. J. Kucharik, C. Monfreda, J. A. Patz, I. C. Prentice, N. Ramankutty and P. K. Snyder (2005). “Global consequences of land use.” Science 309(5734): 570-574.CrossRefPubMed

Goldberg, T. L., T. R. Gillespie, I. B. Rwego, E. L. Estoff and C. A. Chapman (2008). “Forest fragmentation as cause of bacterial transmission among nonhuman primates, humans, and livestock, Uganda.” Emerg Infect Dis 14(9): 1375-1382.CrossRefPubMedCentralPubMed

Goudie, A. (2000). The Human Impact on the Natural Environment, 5th ed. Cambridge, The MIT Press

Grieco, J. P., S. Johnson, N. L. Achee, P. Masuoka, K. Pope, E. Rejmankova, E. Vanzie, R. Andre and D. Roberts (2006). “Distribution of Anopheles albimanus, Anopheles vestitipennis, and Anopheles crucians associated with land use in northern Belize.” J Med Entomol 43(3): 614-622.CrossRefPubMed

Hines, A. M., V. O. Ezenwa, P. Cross and J. D. Rogerson (2007). “Effects of supplemental feeding on gastrointestinal parasite infection in elk (Cervus elaphus): preliminary observations.” Vet Parasitol 148(3-4): 350-355.CrossRefPubMed

Jardine, A., P. Speldewinde, M. D. Lindsay, A. Cook, C. A. Johansen and P. Weinstein (2008). “Is there an association between dryland salinity and Ross River virus disease in southwestern Australia?” Ecohealth 5(1): 58-68.CrossRefPubMed

Johnson, P. T., J. M. Chase, K. L. Dosch, R. B. Hartson, J. A. Gross, D. J. Larson, D. R. Sutherland and S. R. Carpenter (2007). “Aquatic eutrophication promotes pathogenic infection in amphibians.” Proceedings of the National Academy of Sciences of the United States of America 104(40): 15781-15786.CrossRefPubMedCentralPubMed

Jolles, A. E., V. O. Ezenwa, R. S. Etienne, W. C. Turner and H. Olff (2008). “Interactions between macroparasites and microparasites drive infection patterns in free-ranging African buffalo.” Ecology 89(8): 2239-2250.CrossRefPubMed

Jones, K. E., N. G. Patel, M. A. Levy, A. Storeygard, D. Balk, J. L. Gittleman and P. Daszak (2008). “Global trends in emerging infectious diseases.” Nature 451(7181): 990-993.CrossRefPubMed

Keesing, F., L. K. Belden, P. Daszak, A. Dobson, C. D. Harvell, R. D. Holt, P. Hudson, A. Jolles, K. E. Jones, C. E. Mitchell, S. S. Myers, T. Bogich and R. S. Ostfeld (2010). “Impacts of biodiversity on the emergence and transmission of infectious diseases.” Nature 468(7324): 647-652.CrossRefPubMed

Klinkenberg, E., F. Konradsen, N. Herrel, M. Mukhtar, W. van der Hoek and F. P. Amerasinghe (2004). “Malaria vectors in the changing environment of the southern Punjab, Pakistan.” Trans R Soc Trop Med Hyg 98(7): 442-449.CrossRefPubMed

Kowalewski, M. M., J. S. Salzer, J. C. Deutsch, M. Rano, M. S. Kuhlenschmidt and T. R. Gillespie (2011). “Black and gold howler monkeys (Alouatta caraya) as sentinels of ecosystem health: patterns of zoonotic protozoa infection relative to degree of human-primate contact.” Am J Primatol 73(1): 75-83.CrossRefPubMed

Linard, C., P. Lamarque, P. Heyman, G. Ducoffre, V. Luyasu, K. Tersago, S. O. Vanwambeke and E. F. Lambin (2007). “Determinants of the geographic distribution of Puumala virus and Lyme borreliosis infections in Belgium.” Int J Health Geogr 6: 15-15.CrossRefPubMedCentralPubMed

Matson, P. A., W. J. Parton, A. G. Power and M. J. Swift (1997). “Agricultural intensification and ecosystem properties.” Science 277(5325): 504-509.CrossRefPubMed

Mayo, C. E., I. A. Gardner, B. A. Mullens, C. M. Barker, A. C. Gerry, A. J. Guthrie and N. J. MacLachlan (2012). “Anthropogenic and meteorological factors influence vector abundance and prevalence of bluetongue virus infection of dairy cattle in California.” Vet Microbiol 155(2-4): 158-164.CrossRefPubMed

McCallum, H. and A. Dobson (2002). “Disease, habitat fragmentation and conservation.” Proc Biol Sci 269(1504): 2041-2049.CrossRefPubMedCentralPubMed

Miller, M. A., W. A. Miller, P. A. Conrad, E. R. James, A. C. Melli, C. M. Leutenegger, H. A. Dabritz, A. E. Packham, D. Paradies, M. Harris, J. Ames, D. A. Jessup, K. Worcester and M. E. Grigg (2008). “Type X Toxoplasma gondii in a wild mussel and terrestrial carnivores from coastal California: new linkages between terrestrial mammals, runoff and toxoplasmosis of sea otters.” Int J Parasitol 38(11): 1319-1328.CrossRefPubMed

Mutero, C. M., C. Kabutha, V. Kimani, L. Kabuage, G. Gitau, J. Ssennyonga, J. Githure, L. Muthami, A. Kaida, L. Musyoka, E. Kiarie and M. Oganda (2004). “A transdisciplinary perspective on the links between malaria and agroecosystems in Kenya.” Acta Trop 89(2): 171-186.CrossRefPubMed

Ostfeld, R. S. (2013). “A Candide response to Panglossian accusations by Randolph and Dobson: biodiversity buffers disease.” Parasitology 140(10): 1196-1198.CrossRefPubMed

Patz, J. A., T. K. Graczyk, N. Geller and A. Y. Vittor (2000). “Effects of environmental change on emerging parasitic diseases.” Int J Parasitol 30(12-13): 1395-1405.CrossRefPubMed

Plowright, R., S. Sokolow, M. Gorman, P. Daszek, J. Foley (2008) Causal inference in disease ecology: investigating ecological drivers of disease emergence. Frontiers in Ecology and the Environment 6: 420–429.CrossRef

Plowright, R. K., P. Foley, H. E. Field, A. P. Dobson, J. E. Foley, P. Eby and P. Daszak (2011). “Urban habituation, ecological connectivity and epidemic dampening: the emergence of Hendra virus from flying foxes (Pteropus spp.).” Proc Biol Sci 278(1725): 3703-3712.CrossRefPubMedCentralPubMed

Pongsiri, M. J., J. Roman, V. O. Ezenwa, T. L. Goldberg, H. S. Koren, S. C. Newbold, R. S. Ostfeld, S. K. Pattanayak and D. J. Salkeld (2009). “Biodiversity loss affects global disease ecology.” Bioscience 59(11): 945-954.CrossRef

Pulliam J. R., J. H. Epstein, J. Dushoff, S. A. Rahman, M. Bunning, A. A. Jamaluddin, A. D. Hyatt, H. E. Field, A. P. Dobson, P. Daszak, the Henipavirus Ecology Research (2012) Agricultural intensification, priming for persistence and the emergence of Nipah virus: a lethal bat-borne zoonosis. Journal of the Royal Society Interface 9(66):89–101.CrossRefPubMedCentral

Randolph, S. E. and A. D. M. Dobson (2012). “Pangloss revisited: a critique of the dilution effect and the biodiversity-buffers-disease paradigm.” Parasitology 139(7): 847-863.CrossRefPubMed

Raoult, D. and V. Roux (1997). “Rickettsioses as paradigms of new or emerging infectious diseases.” Clin Microbiol Rev 10(4): 694-719.PubMedCentralPubMed

Restif, O., D. T. Hayman, J. R. Pulliam, R. K. Plowright, D. B. George, A. D. Luis, A. A. Cunningham, R. A. Bowen, A. R. Fooks, T. J. O’Shea, J. L. Wood and C. T. Webb (2012). “Model-guided fieldwork: practical guidelines for multidisciplinary research on wildlife ecological and epidemiological dynamics.” Ecol Lett 15(10): 1083-1094.CrossRefPubMedCentralPubMed

Salkeld, D. J., K. A. Padgett and J. H. Jones (2013). “A meta-analysis suggesting that the relationship between biodiversity and risk of zoonotic pathogen transmission is idiosyncratic.” Ecol Lett 16(5): 679-686.CrossRefPubMed

Sorensen, A., F. M. van Beest and R. K. Brook (2014). “Impacts of wildlife baiting and supplemental feeding on infectious disease transmission risk: A synthesis of knowledge.” Prev Vet Med 113(4): 356-363.CrossRefPubMed

Suzan, G., E. Marce, J. T. Giermakowski, B. Armien, J. Pascale, J. Mills, G. Ceballos, A. Gomez, A. A. Aguirre, J. Salazar-Bravo, A. Armien, R. Parmenter and T. Yates (2008). “The effect of habitat fragmentation and species diversity loss on hantavirus prevalence in Panama.” Ann N Y Acad Sci 1149: 80-83.CrossRefPubMed

Telfer, S., X. Lambin, R. Birtles, P. Beldomenico, S. Burthe, S. Paterson and M. Begon (2010). “Species interactions in a parasite community drive infection risk in a wildlife population.” Science 330(6001): 243-246.CrossRefPubMedCentralPubMed

Tersago, K., A. Schreurs, C. Linard, R. Verhagen, S. Van Dongen and H. Leirs (2008). “Population, environmental, and community effects on local bank vole (Myodes glareolus) Puumala virus infection in an area with low human incidence.” Vector Borne Zoonotic Dis 8(2): 235-244.CrossRefPubMed

Tilman, D. (1999). “Global environmental impacts of agricultural expansion: the need for sustainable and efficient practices.” Proceedings of the National Academy of Sciences of the United States of America 96(11): 5995-6000.CrossRefPubMedCentralPubMed

Vaz, V. C., P. S. D’Andrea, A. M. Jansen (2007) Effects of habitat fragmentation on wild mammal infection by Trypanosoma cruzi. Parasitology 134(12):1785–1793.CrossRefPubMed

Vittor, A. Y., R. H. Gilman, J. Tielsch, G. Glass, T. Shields, W. S. Lozano, V. Pinedo-Cancino and J. A. Patz (2006). “The effect of deforestation on the human-biting rate of Anopheles darlingi, the primary vector of Falciparum malaria in the Peruvian Amazon.” Am J Trop Med Hyg 74(1): 3-11.

Woolhouse, M. E., L. H. Taylor and D. T. Haydon (2001). “Population biology of multihost pathogens.” Science 292(5519): 1109-1112.CrossRefPubMed

Xia, Y., O. N. Bjornstad and B. T. Grenfell (2004). “Measles metapopulation dynamics: a gravity model for epidemiological coupling and dynamics.” Am Nat 164(2): 267-281.CrossRefPubMed

Yasuoka, J. and R. Levins (2007). “Impact of deforestation and agricultural development on anopheline ecology and malaria epidemiology.” American Journal of Tropical Medicine and Hygiene 76(3): 450-460.PubMed

Titel: Anthropogenic Land Use Change and Infectious Diseases: A Review of the Evidence
verfasst von: Nicole L. Gottdenker
Daniel G. Streicker
Christina L. Faust
C. R. Carroll
Publikationsdatum: 01.12.2014
Verlag: Springer US
Erschienen in: EcoHealth / Ausgabe 4/2014
Print ISSN: 1612-9202
Elektronische ISSN: 1612-9210
DOI: https://doi.org/10.1007/s10393-014-0941-z

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