Abstract
Over the last 25 years more than 70 million ha of the native vegetation in Brazil have been replaced by pastures for beef production planted to grasses of the genus Brachiaria, and to a lesser extent Andropogon gayanus, both of African origin. Some years after implantation, these pastures decline in productivity, probably due to low availability of P, and immobilisation of N in the soil due to the large quantities of senescent leaves (litter) of high C:N ratio deposited on the soil surface. In this paper we report the effects of the introduction of a forage legume (Desmodium ovalifolium) and different animal stocking rates on the deposition and decomposition of plant litter in pastures of Brachiaria humidicola at a site in the coastal Atlantic forest region of the south of Bahia State (Brazil). Litter existing on the ground, and that deposited in 14-day periods, was monitored at monthly intervals during 3 years of the study. Doubling the stocking rate from 2 to 4 animals ha-1 caused a highly significant decrease in litter deposition, but the presence of the legume in the sward had little effect. Calculations made directly from the quantities of litter deposited in the 14-day periods showed that between 15 and 18 tons of litter dry matter (dm) were deposited annually, but the relatively small quantities of existing litter (annual means of 0.8 to 1.5 t dm ha-1), showed that decomposition was rapid, showing values for half life of between 22 and 33 days. This technique was assumed to underestimate true litter disappearance rates, as with such rapid decomposition a significant proportion of the litter disappeared within the 14-day collection periods. An equation was developed to correct for this loss of litter during the collection periods and corrected litter decomposition constants of 0.037 to 0.097 g g-1 day-1 were recorded resulting in half lives of between 9 and 20 days. Using these data and adding them to estimates of animal consumption the net aerial primary productivity (NAPP) of the pastures ranged from 28 to 34 t dry matter ha-1 yr-1. Experiments with litter bags, and a "covered litter" system which allowed access of soil fauna to the litter, indicated that soil faunal activity had little impact on litter disappearance and such techniques underestimated true litter decomposition by at least an order of magnitude. We suggest that this underestimation is due to the fact, that in contrast to litter bags, in the open field situation fresh litter is being added continuously. As this material consists of both easily degradable ("active") and recalcitrant fractions, the easily degradable fraction fuels an active microbial biomass which continuously degrades the less decomposable material. It is concluded that the approach used in this study gives more realistic, and much higher estimates, of net primary aerial production of tropical grasslands and pastures than techniques heretofore utilised.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Boddey RM, Rao IM & Thomas RJ (1996) Nutrient cycling and environmental impact of Brachiaria pastures. In: JW Miles, BL Maass & CB do Valle (eds) Brachiaria: The Biology, Agronomy and Improvement. pp 72–86. Publication 259, CIAT, Cali, Colombia
Bruce RC & Ebersohn JP (1982) Litter measurements in two grazed pastures in south-east Queensland. Tropical Grasslands 16: 180–185
Bulla L, Pacheco J & Miranda R (1981) A simple model for the measurement of primary productions in grasslands. Bol Soc Venez Cienc Nat 136: 281–304
Long SP & Jones MB (1992) Introduction, aims, goals and general methods. In: Long SP, Jones MB & Roberts MJ ‘Primary Productivity of Grass Ecosystems of the Tropics and Sub-Tropics’ pp 1–24. Chapman & Hall, London.
Long SP, Garcia Moya E, Imbamba SK, Kamnalrut A, Piedade MTF, Scurlock JMO, Shen YK & Hall DO (1989) Primary productivity of natural grass ecosystems. Plant Soil 115: 155–166
Lomnicki A, Bandola E & Jankowska K (1968) Modification of the Wiegert-Evans method for estimation of net primary production. Ecology 49: 147–149
Macedo MCM (1995) Pastagens no ecossistema Cerrados: Pesquisa para o desenvolvimento sustentável. In: de Andrade RP, de O Barcellos A & da Rocha CMC (eds) Proc. Symp. ‘Pastagens nos Ecossistemas Brasileiros: pesquisas para o desenvolvimento sustentável’, pp 28–62 Sociedade Brasileira de Zootecnia, Universidade Federal de Viçosa, Viçosa, MG
Neto MS & Dias Filho MB (1995) Pastagens no ecossistema do trópico úmido: Pesquisa para o desenvolvimento sustentável. In: de Andrade RP, de O Barcellos A & da Rocha CMC (eds) Proc. Symp. ‘Pastagens nos Ecossistemas Brasileiros: pesquisas para o desenvolvimento sustentável’, pp 76–93. Sociedade Brasileira de Zootecnia, Universidade Federal de Viçosa, Viçosa, MG
Olson JS (1963) Energy storage and the balance of producers and decomposers in ecological systems. Ecology 44: 322–331
Pereira JM, Nascimento D Jr, Santana JR, Cantarutti RB & Leão MI (1992) Teor de proteína bruta e digestibilidade ‘in vitro’ da matéria seca da forragem disponível e da dieta selecionada por bovinos em pastagem de B. humidicola (Rendle) Schweickt, em monocultivo ou consorciado com leguminosas, submetida a diferentes taxas de lotação. Rev Soc Bras Zootec 21: 104–117
Pereira JM, Boddey RM & Rezende C de P (1995) Pastagens no ecossistema Mata Atlantica: Pesquisa para o desenvolvimento sustentável. In: de Andrade RP, de O Barcellos A & da Rocha CMC (eds) Proc. Symp. ‘Pastagens nos Ecossistemas Brasileiros: pesquisas para o desenvolvimento sustentável’, pp 94–146. Sociedade Brasileira de Zootecnia, Universidade Federal de Viçosa, Viçosa, MG
Robbins GB, Bushell JJ & McKeon GM (1989) Nitrogen immobilization in decomposing litter contributes to productivity decline in ageing pastures of green panic. (Panicum maximum var. trichoglume) J Agric Sci 113: 401–406
Robertson FA, Myers RJK & Saffigna PG (1993a) Carbon and nitrogen mineralization in cultivated and grassland soils in subtropical Queensland. Aust J Soil Res 31: 611–619
Robertson FA, Myers RJK & Saffigna PG (1993b) Distribution of carbon and nitrogen in a long-term cropping system and permanent pasture system. Aust J Agric Res 44:1323–1336
Singh JS, Lavenroth WK & Steinhurst RK (1975) Review and assessment of various techniques for estimating net aerial primary production in grasslands from harvest data. Bot Rev 41: 181–232
Thomas RJ & Asakawa NM (1993) Decomposition of leaf litter from tropical forage grasses and legumes. Soil Biol Biochem 25: 1351–1361
Toledo JM (1985) Pasture development for cattle production in the major ecosystems of the tropical American lowlands. In: Proc. XV Int. Grasslands Congr. pp 74–81. Kyoto, Japan
Urquiaga S, Cadisch G, Alves BJR, Giller KE & Boddey RM (1998) The influence of the decomposition of roots of tropical forage species on the availability of soil nitrogen. Soil Biol Biochem (in press)
Vanlauwe B, Nwoke OC, Sanginga N & Merckx R (1996) Impact of the residue quality on the C and N mineralization of leaf and root residues of three agroforestry species. Plant Soil 183: 221–231
Wiegert RG & Evans FC (1964) Primary production and the disappearance of dead vegetation on an old field in Southeastern Michigan. Ecology 45: 49–63
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Rezende, C., Cantarutti, R., Braga, J. et al. Litter deposition and disappearance in Brachiaria pastures in the Atlantic forest region of the South of Bahia, Brazil. Nutrient Cycling in Agroecosystems 54, 99–112 (1999). https://doi.org/10.1023/A:1009797419216
Issue Date:
DOI: https://doi.org/10.1023/A:1009797419216