25 Nov 2011
4 Hefte pro Jahr
Uneingeschränkter Zugang

Effects of tree arrangements of silvopasture system on behaviour and performance of cattle: a systematic review

Online veröffentlicht: 27 Feb 2023
Volumen & Heft: AHEAD OF PRINT
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Eingereicht: 20 Oct 2022
Akzeptiert: 10 Jan 2023
25 Nov 2011
4 Hefte pro Jahr

Álvarez F., Casanoves F., Suárez J.C., Pezo D. (2021). The effect of different levels of tree cover on milk production in dual-purpose livestock systems in the humid tropics of the Colombian Amazon region. Agrofor. Syst., 95: 93–102. Search in Google Scholar

Améndola L., Solorio F.J.J., Ku-Vera J.C.C., Améndola-Massioti R.D.D., Zarza H., Mancera K.F.F., Galindo F. (2018). A pilot study on the foraging behaviour of heifers in intensive silvopastoral and monoculture systems in the tropics. Animal, 13: 606–616. Search in Google Scholar

Angrecka S., Herbut P. (2015). Conditions for cold stress development in dairy cattle kept in free stall barn during severe frosts. Czech J. Anim. Sci., 60: 81–87. Search in Google Scholar

Aria M., Cuccurullo C. (2017). Bibliometrix: An R-tool for comprehensive science mapping analysis. J. Informetr., 11: 959–975. Search in Google Scholar

Baliscei M.A., Souza W., Barbosa O.R., Cecato U., Krutzmann A., Queiroz E.D.O. (2012). Behavior of beef cattle and the microclimate with and without shade. Acta Sci. Anim. Sci., 34: 409–415. Search in Google Scholar

Bertogna K.F., Moreira P.S.A., Gomes F.J., Kachiyama F.B., Groth A., Rezende M.O., Magalhães C.A.S, Lopes L.B. (2021). Parameters associated with sexual precocity of Nellore heifers in integrated systems. Agrofor. Syst., 96: 669–679. Search in Google Scholar

Brunetti H.B., Pezzopane J.R.M., Bonani W.L., Bosi C., Neto R.P., Bernardi A.C.D.C., Oliveira P.P.A., 2022. Productive and nutritive traits of Piatã palisadegrass after thinning the forest component of a silvopastoral system in southeastern Braz. J. Agricul. Sci., 160: 338–348.10.1017/S002185962200051X Search in Google Scholar

Bosi C., Pezzopane J.R.M., Sentelhas P.C. (2020). Silvopastoral system with eucalyptus as a strategy for mitigating the effects of climate change on Brazilian pasturelands. An. Acad. Bras. Cienc., 92: e20180425. Search in Google Scholar

Broom D.M. (2017). Components of sustainable animal production and the use of silvopastoral systems. Rev. Bras. Zootec., 46: 683–688. Search in Google Scholar

Burgess P.J., Rosati A. (2018). Advances in European agroforestry: results from the AGFORWARD project. Agrofor. Syst., 92: 801–810. Search in Google Scholar

Cardoso C.S., von Keyserlingk M.A.G., Machado Filho L.C.P., Hötzel M.J. (2021). Dairy Heifer Motivation for Access to a Shaded Area. Animals, 11: 2507. Search in Google Scholar

Carnevalli R.A., Mello A.C.T., Coletti A.J., Garcia L.F., Xavier D.B. (2020). Shade controls the ruminating and idleness times of dairy heifers in tropical integrated systems. Agrofor. Syst., 94: 779–790. Search in Google Scholar

Carvalho P., Domiciano L.F., Mombach M.A., Nascimento H.L.B., Cabral L.S., Sollenberger L.E., Pereira D.H., Pedreira B.C. (2019). Forage and animal production on palisadegrass pastures growing in monoculture or as a component of integrated crop–livestock–forestry systems. Grass Forage Sci., 74: 650–660. Search in Google Scholar

Chen J.M., Schütz K.E., Tucker C.B. (2013). Dairy cows use and prefer feed bunks fitted with sprinklers. J. Dairy Sci., 96: 5035–5045. Search in Google Scholar

Cobo M.J., López-Herrera A.G., Herrera-Viedma E., Herrera F. (2011). An approach for detecting, quantifying, and visualizing the evolution of a research field: A practical application to the Fuzzy Sets Theory field. J. Informetr., 5: 146–166. Search in Google Scholar

De-Sousa K.T., Deniz M., Vale M.M., Dittrich J.R., Hötzel M.J. (2021a). Influence of microclimate on dairy cows’ behavior in three pasture systems during the winter in south Brazil. J. Therm. Biol., 97: 102873.10.1016/j.jtherbio.2021.10287333863437 Search in Google Scholar

De-Sousa K.T., Deniz, M., Moro M.F., Gomes I.C., Vale M.M., Dittrich, J.R. (2021b). Developing of a model to predict lying behavior of dairy cows on silvopastoral system during the winter season. Int. J. Biometeorol., 65: 1781–1786.10.1007/s00484-021-02121-033791859 Search in Google Scholar

De Souza E.C., Salman A.K.D., Cruz P.G., Veit H.M., Carvalho G.A., Silva F.R.F., Schmitt E. (2019). Thermal comfort and grazing behavior of Girolando heifers in integrated crop-livestock (ICL) and crop-livestock-forest (ICLF) systems. Acta Anim. Sci., 41: 1–11. Search in Google Scholar

De Souza W., Barbosa O.R., Marques J.D.A., Gasparino E., Cecato U., Barbero L.M. (2010). Behavior of beef cattle in silvipastoral systems with eucalyptus. Rev. Bras. Zootec., 677–684.10.1590/S1516-35982010000300029 Search in Google Scholar

Deniz M., Schmitt Filho A.L., Hötzel M.J., De-Sousa K.T., Machado Filho, L.C.P., Sinisgalli P.A. (2020). Microclimate and pasture area preferences by dairy cows under high biodiversity silvopastoral system in Southern Brazil. Int. J. Biometeorol., 64: 1877–1887. Search in Google Scholar

Deniz M., De-Sousa K.T., Moro M.F., Vale M.M., Dittrich J.R., Machado Filho L.C.P., Hötzel M.J. (2021 a). Social hierarchy influences dairy cows’ use of shade in a silvopastoral system under intensive rotational grazing. Appl. Anim. Behav. Sci., 244: 105467.10.1016/j.applanim.2021.105467 Search in Google Scholar

Deniz M., De-Sousa K.T., Gomes I.C., Vale M.M., Dittrich J.R. (2021 b). Classification of environmental factors potentially motivating for dairy cows to access shade. J. Dairy Res., 88: 274–277.10.1017/S002202992100050934238391 Search in Google Scholar

Desmiwati D., Veriasa T.O., Aminah A., Safitri A.D., Hendarto K.A., Wisudayati T.A., Royani H., Dewi K.H., Raharjo S.N.I., Sari, D.R. (2021). Contribution of agroforestry systems to farmer income in state forest areas: A case study of Parungpanjang, Indonesia. For. Soc., 5: 109–119. Search in Google Scholar

Devkota N.R., Kemp P.D., Hodgson J. (1997). Screening pasture species for shade tolerance. Agron. Soc. New Zeal., 27: 119–128. Search in Google Scholar

Devkota N.R., Kemp P.D., Hodgson J., Valentine I., Jaya I.K.D. (2009). Relationship between tree canopy height and the production of pasture species in a silvopastoral system based on alder trees. Agrofor. Syst., 76: 363–374. Search in Google Scholar

Domiciano L.F., Mombach M.A., Carvalho P., Silva N.M.F., Pereira D.H., Cabral L.S., Lopes L.B., Pedreira B.C. (2016). Performance and behaviour of Nellore steers on integrated systems. Anim. Prod. Sci., 58: 920–929. Search in Google Scholar

Domiciano L.F., Pedreira B.C., Silva N.M.F., Mombach M.A., Chizzotti F.H.M., Batista E.D., Carvalho P., Cabral L.S., Pereira D.H., Nascimento H.L.B. (2020). Agroforestry systems: an alternative to intensify forage-based livestock in the Brazilian Amazon. Agrofor. Syst., 94: 1839–1849. Search in Google Scholar

Dupraz C., Blitz-Frayret C., Lecomte I., Molto Q., Reyes F., Gosme M. (2018). Influence of latitude on the light availability for intercrops in an agroforestry alley-cropping system. Agrofor. Syst., 92: 1019–1033. Search in Google Scholar

Fedrigo J.K., Santa Cruz R., Benítez V., Courdin V., Ferreira G., Posse J.P., Viñoles, C. (2019). Dynamics of forage mass, air temperature and animal performance in a silvopastoral system of Uruguay. Agrofor. Syst., 93: 2197–2204. Search in Google Scholar

Fournel S., Ouellet V., Charbonneau É. (2017). Practices for alleviating heat stress of dairy cows in humid continental climates: A literature review. Animals, 7: 1–23. Search in Google Scholar

Frey G.E., Fassola H.E., Pachas A.N., Colcombet L., Lacorte S.M., Pérez O., Renkow M., Warren S.T., Cubbage F.W. (2012). Perceptions of silvopasture systems among adopters in northeast Argentina. Agric. Syst., 105: 21–32. Search in Google Scholar

Gebremedhin K.G., Wu B., Perano K. (2016). Modeling conductive cooling for thermally stressed dairy cows. J. Therm. Biol., 56: 91–99. Search in Google Scholar

Giro A., Pezzopane J.R.M., Barioni Junior W., Pedroso A.F., Lemes A.P., Botta D., Romanello, N., Barreto A.N., Garcia A.R. (2019). Behavior and body surface temperature of beef cattle in integrated crop-livestock systems with or without tree shading. Sci. Total Environ., 684: 587–596. Search in Google Scholar

Herbut P., Angrecka S., Walczak J. (2018). Environmental parameters to assessing of heat stress in dairy cattle – a review. Int. J. Biometeorol., 62: 2089–2097. Search in Google Scholar

Huertas S.M. (2018). Environmental Conditions in a Temperate Weather Silvopastoral System vs. Natural Grassland and their Impact on Animal Beef Production. Biomed. J. Sci. Tech. Res., 3: 1–2. Search in Google Scholar

Huertas, S.M., Bobadilla P.E., Alcántara I., Akkermans E., van Eerdenburg F.J.C.M. (2021). Benefits of silvopastoral systems for keeping beef cattle. Animals, 11: 1–12. Search in Google Scholar

Jose S., Walter D., Mohan Kumar B., (2019). Ecological considerations in sustainable silvopasture design and management. Agrofor. Syst., 93: 317–331. Search in Google Scholar

Karki U., Goodman M.S. (2010). Cattle distribution and behavior in southern-pine silvopasture versus open-pasture. Agrofor. Syst., 78: 159–168. Search in Google Scholar

Latawiec A.E., Strassburg B.B.N., Valentim J.F., Ramos F., Alves-Pinto H.N. (2014). Intensification of cattle ranching production systems: socioeconomic and environmental synergies and risks in Brazil. Animal, 8: 1255–1263. Search in Google Scholar

Lemes A.P., Garcia A.R., Pezzopane J.R.M., Brandão F.Z., Watanabe Y.F., Cooke R.F., Sponchiado M., Paz C.C.P., Camplesi A.C., Binelli M., Gimenes L.U. (2021). Silvopastoral system is an alternative to improve animal welfare and productive performance in meat production systems. Sci. Rep., 11: 1–17. Search in Google Scholar

Lima I.L.P., Scariot A., Giroldo A.B. (2017). Impacts of the implementation of silvopastoral systems on biodiversity of native plants in a traditional community in the Brazilian Savanna. Agrofor. Syst., 91: 1069–1078. Search in Google Scholar

Lima M.A., Paciullo D.S.C., Morenz M.J.F., Gomide C.A.M., Rodrigues R.A.R., Chizzotti F.H.M. (2019 a). Productivity and nutritive value of Brachiaria decumbens and performance of dairy heifers in a long-term silvopastoral system. Grass Forage Sci., 74: 160–170.10.1111/gfs.12395 Search in Google Scholar

Lima M.A., Paciullo D.S.C., Silva F.F., Morenz M.J.F., Gomide C.A.M., Rodrigues R.A.R., Bretas I.L., Chizzotti F.H.M. (2019 b). Evaluation of a long-established silvopastoral Brachiaria decumbens system: Plant characteristics and feeding value for cattle. Crop Pasture Sci., 70: 814–825.10.1071/CP19027 Search in Google Scholar

Lopes L.B., Eckstein C., Pina D.S., Carnevalli R.A. (2016). The influence of trees on the thermal environment and behaviour of grazing heifers in Brazilian Midwest. Trop. Anim. Health Prod., 48: 755–761. Search in Google Scholar

Magalhães C.A.S.S., Zolin C.A., Lulu J., Lopes, L.B., Furtini I. V., Vendrusculo L.G., Zaiatz A.P.S.R., Pedreira B.C., Pezzopane J.R.M. (2020). Improvement of thermal comfort indices in agroforestry systems in the southern Brazilian Amazon. J. Therm. Biol., 91: 102636. Search in Google Scholar

Márquez S.P., Ovani V.S., Abdalla A.L., Maurício R.M. (2021). Why haven’t silvopastoral system expanded in Brazil? Livest. Res. Rural Dev., 33: 1–16. Search in Google Scholar

Martins C.F., Fonseca-Neto A.M., Bessler H.C., Dode M.A.N.N., Leme L.O., Franco M.M., McManus C.M., Malaquias J.V., Ferreira I.C. (2021). Natural shade from integrated crop–livestock–forestry mitigates environmental heat and increases the quantity and quality of oocytes and embryos produced in vitro by Gyr dairy cows. Livest. Sci., 244: 104341. Search in Google Scholar

McDonald P.V., von Keyserlingk M.A.G., Weary D.M. (2020). Hot weather increases competition between dairy cows at the drinker. J. Dairy Sci., 103: 3447–3458. Search in Google Scholar

Mello A.C.T., Carnevalli R.A., Shiratsuchi L.S., Pedreira B.C., Lopes L.B., Xavier D.B. (2017). Improved grazing activity of dairy heifers in shaded tropical grasslands. Ciência Rural, 47: e20160316. Search in Google Scholar

Moher D., Shamseer L., Clarke M., Ghersi D., Liberati A., Petticrew M., Shekelle P., Stewart L.A., Group P.P. (2015). Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Syst. Rev., 4: 1–9. Search in Google Scholar

Morales A.M.T., Ceballos M.C., Londoño G.C., Cardona C.A.C., Ramírez J.F.N., Costa M.J.R.P. (2017). Welfare of cattle kept in intensive silvopastoral systems: A case report. Rev. Bras. Zootec., 46: 478–488. Search in Google Scholar

Musa F., Lile N.A., Mohd Hamdan D.D. (2019). Agroforestry practices contribution towards socioeconomics: A case study of tawau communities in malaysia. Agric. For., 65: 65–72. Search in Google Scholar

Neves F.O., Andrighetto C., Luz A., Mateus G.P., Santos J.M.F., Lima L.P., Sekiya B.M.S., Zanetti L.H., Lupatini G.C., Vieira N.C. (2021). Performance, carcass and meat quality of Angus-Nellore heifers finished in integrated livestock forest systems. J. Anim. Feed Sci., 30: 33–41. Search in Google Scholar

Nordlund K.V., Strassburg P., Bennett T.B., Oetzel G.R., Cook N.B. (2019). Thermodynamics of standing and lying behavior in lactating dairy cows in freestall and parlor holding pens during conditions of heat stress. J. Dairy Sci., 102: 6495–6507. Search in Google Scholar

Oliveira C.C., Almeida R.G., Karvatte Junior N., Villela S.D.J., Bungenstab D.J., Alves F.V. (2021). Daytime ingestive behaviour of grazing heifers under tropical silvopastoral systems: Responses to shade and grazing management. Appl. Anim. Behav. Sci., 240.10.1016/j.applanim.2021.105360 Search in Google Scholar

Paciullo D.S.C., Castro C.R.T., Gomide C.A.M., Maurício R.M., Pires M.F.Á., Müller M.D., Xavier D.F. (2011). Performance of dairy heifers in a silvopastoral system. Livest. Sci., 141: 166–172. Search in Google Scholar

Paciullo D.S.C., Fernandes P.B., Carvalho C.A.B., Morenz M.J.F., Lima M.A., Maurício R.M., Gomide C.A.M. (2021). Pasture and animal production in silvopastoral and open pasture systems managed with crossbred dairy heifers. Livest. Sci., 245: 1–9. Search in Google Scholar

Paciullo D.S.C., Gomide C.A.M., Castro C.R.T., Maurício R.M., Fernandes P.B., Morenz M.J.F. (2017). Morphogenesis, biomass and nutritive value of Panicum maximum under different shade levels and fertilizer nitrogen rates. Grass Forage Sci., 72: 590–600. Search in Google Scholar

Paula R.R., Reis G.G., Reis M.G.F., Oliveira Neto S.N., Leite H.G., Melido R.C.N., Lopes H.N.S., Souza F.C. (2013). Eucalypt growth in monoculture and silvopastoral systems with varied tree initial densities and spatial arrangements. Agrofor. Syst., 87: 1295–1307. Search in Google Scholar

Pezzopane J.R.M., Bernardi A.C.C., Azenha M.V., Oliveira P.P.A., Bosi C., Pedroso A.F., Esteves S.N. (2020). Production and nutritive value of pastures in integrated livestock production systems: Shading and management effects. Sci. Agric., 77. Search in Google Scholar

Pezzopane J.R.M., Nicodemo M.L.F., Bosi C., Garcia A.R., Lulu J. (2019). Animal thermal comfort indexes in silvopastoral systems with different tree arrangements. J. Therm. Biol., 79: 103–111. Search in Google Scholar

Pezzopane J.R.M., Bosi C., Nicodemo M.L.F., Santos P.M., Cruz, P.G., Parmejiani, R.S. (2015) Microclimate and soil moisture in a silvopastoral system in southeastern Brazil. Bragantia, 74: 110–119.10.1590/1678-4499.0334 Search in Google Scholar

Pezzopane J.R.M.E., Bonani W.L., Bosi C., Rocha, E.L.F., Bernardi, A.C., Oliveira P.P.A., Pedroso, A.F. (2020). Reducing competition in a crop-livestock-forest integrated system by thinning eucalyptus trees. Exp. Agric., 56: 574–586. Search in Google Scholar

Pontes L.S., Stafin G., Moletta J.L., Porfírio-da-Silva V. (2020). Performance of Purunã beef heifers and pasture productivity in a long-term integrated crop-livestock system: the effect of trees and nitrogen fertilization. Agrofor. Syst., 94: 1713–1723. Search in Google Scholar

R Core Team (2021). R: A language and environment for statistical computing. R Foundation for Statistical Computing. Search in Google Scholar

Reis N.S., Ferreira I.C., Mazocco L.A., Souza A.C.B., Pinho G.A.S., Neto Á.M.F., Malaquias J.V., Macena F.A., Muller A.G., Martins C.F., Balbino L.C., McManus C.M. (2021). Shade modifies behavioral and physiological responses of low to medium production dairy cows at pasture in an integrated crop-livestock-forest system. Animals, 11: 2411. Search in Google Scholar

Resende L.O., Müller M.D., Kohmann M.M., Pinto L.F.G., Cullen Junior L., Zen S., Rego L.F.G. (2020). Silvopastoral management of beef cattle production for neutralizing the environmental impact of enteric methane emission. Agrofor. Syst., 94: 893–903. Search in Google Scholar

Rosati A., Borek R., Canali S. (2021). Agroforestry and organic agriculture. Agrofor. Syst., 95: 805–821. Search in Google Scholar

Santos D.C., Guimarães Júnior R., Vilela L., Maciel G.A., França A.F.S. (2018). Implementation of silvopastoral systems in Brazil with Eucalyptus urograndis and Brachiaria brizantha: Productivity of forage and an exploratory test of the animal response. Agric. Ecosyst. Environ., 266: 174–180. Search in Google Scholar

Schütz K.E., Rogers A.R., Poulouin Y.A., Cox N.R., Tucker C.B. (2010). The amount of shade influences the behavior and physiology of dairy cattle. J. Dairy Sci., 93: 125–133. Search in Google Scholar

Silva H.A., Santos L.A.C., Pacheco A.R., Calil F.N., Silva-Neto C.M. (2021). Crop-livestock-forest integration systems: A scientometric analysis. Ecol. Nutr. Florest., 9: e03. Search in Google Scholar

Silva F.S., Domiciano L.F., Gomes F.J., Sollenberger L.E., Pedreira C.G.S., Pereira, D.H., Pedreira B.C. (2020). Herbage accumulation, nutritive value and beef cattle production on marandu palisadegrass pastures in integrated systems. Agrofor. Syst., 94: 1891–1902. Search in Google Scholar

Skonieski F.R., Souza E.R., Gregolin L.C.B., Fluck A.C., Costa O.A.D., Destri J., Neto A.P., Souza, E.R., Gregolin L.C.B., Fluck A.C., Costa O.A.D., Destri J., Neto A.P. (2021). Physiological response to heat stress and ingestive behavior of lactating Jersey cows in silvopasture and conventional pasture grazing systems in a Brazilian subtropical climate zone. Trop. Anim. Health Prod., 53: 213. Search in Google Scholar

Souza L.A.S., Matarazoo S.M., Carnevalli R.C., Toledo L.M. (2017). Physiological and behavioral responses of dairy heifers in an integrated-crop-livestock-forestry system. African J. Agric. Res., 12: 1278–1285. Search in Google Scholar

Stivanin S.C.B., Werncke D., Vizzotto E.F., Stumpf M.T., Neto A.T., Fischer V. (2019). Variation in available shaded area changes behaviour parameters in grazing dairy cows during the warm season. Rev. Bras. Zootec., 48: e20180316. Search in Google Scholar

Thornton P., Nelson G., Mayberry D., Herrero M. (2022). Impacts of heat stress on global cattle production during the 21st century: a modelling study. Lancet Planet. Heal., 6: e192–e201. Search in Google Scholar

Tilman D. (1998). The greening of the green revolution. Science, 396: 211–212. Search in Google Scholar

Tullo E., Finzi A., Guarino M. (2019). Review: Environmental impact of livestock farming and Precision Livestock Farming as a mitigation strategy. Sci. Total Environ., 650: 2751–2760. Search in Google Scholar

Van Eck N.J., Van Waltman L. (2014). Visualizing bibliometric networks. In: Measuring Scholarly Impact: Methods and Practice, Y. Ding et al. (eds.). Springer, Switzerland, pp. 285–320.10.1007/978-3-319-10377-8_13 Search in Google Scholar

Varella A.C., Barro R.S., Silva J.L.S., Silva V.P., Saibro J.C. (2016). Silvopastoral systems in southern South America. Switzerland, Springer Cham, 11 ed., 270 pp. Search in Google Scholar

Vieira F.M.C., Deniz M., Vismara E.S., Herbut P., Pilatti J.A., Sponchiado M.Z., Puretz B.O. (2020). Thermoregulatory and Behaviour Responses of Dairy Heifers Raised on a Silvopastoral System in a Subtropical Climate. Ann. Anim. Sci., 20: 613–627. Search in Google Scholar

Vieira F.M.C., Militao E.R., Junior A.W., Herbut P., Mayer L.R.R., Vismara E.S., Vieira A.M.C., Paris W. (2021 a). Impact of shading of a Silvopastoral System on microclimate and botanical composition of polyphytic pasture: a preliminary study in the subtropics. J. Ecol. Eng. J., 22: 215–224.10.12911/22998993/142206 Search in Google Scholar

Vieira F.M.C., Soares A.A., Herbut P., Vismara E.S., Godyń D., Santos A.C.Z., Lambertes T.S., Caetano W.F. (2021 b). Spatio-thermal variability and behaviour as bio-thermal indicators of heat stress in dairy cows in a compost barn: A case study. Animals, 11: 1–19.10.3390/ani11051197814333533919438 Search in Google Scholar

Vieira Junior N.A., Evers J., Vianna M.S., Pedreira B.C., Pezzopane J.R.M., Marin F.R. (2022). Understanding the arrangement of Eucalyptus-Marandu palisade grass silvopastoral systems in Brazil. Agric. Syst., 196: 103316. Search in Google Scholar

Vizzotto E.F., Fischer V., Thaler Neto A., Abreu A.S., Stumpf M.T., Werncke D., Schmidt F.A., McManus C.M. (2015). Access to shade changes behavioural and physiological attributes of dairy cows during the hot season in the subtropics. Animal, 9: 1559–1566. Search in Google Scholar

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