THE RISK OF EROSION IN BRAZILIAN CULTIVATED PASTURES

Pastures are normally associated with minor erosion problems because of their efficient soil cover. Soil cover is without doubt the most effective inter-rill and rill erosion control practice. However, considering the frequency at which pastures are replanted in Brazil and their enormous territorial extension (178 million hectares) we identify that extensive areas, usually covered by pastures, will remain bare, intensively tilled, and without complementary mechanical soil control practices. The pasture area is equivalent to that occupied by most important Brazilian annual crops (corn or soybeans), that are usually cultivated under no-tillage or supported by governmental soil conservation programs. The precise assessment of these impacts, caused by the estimated 10 million hectares of the yearly replanted pastures is unknown, and there is lack of scientific knowledge to suggest an adequate solution. This is, probably, the greatest challenge of Brazilian soil conservation and for an adequate resolution, will require a joint effort of researchers, technicians, educators and stakeholders.


INTRODUCTION
Pastures are worldwide and for a long time considered a land use that protects against soil erosion.In the Land Capability Classification System suggested by Klingebiel & Montgomery (1961), today still remaining a reference for conservation planning, pastures are recommended as an option for land that is not suited for annual crops because of restrictions related to soil conservation.The driving reasons for such an approach are that pastures in humid regions, provided they are not overgrazed or subjected to other degradation processes, offer permanent and complete soil cover, a deep and dense root system and prevent soil from direct exposure to wind and rainfall (Self-Davis et al., 2003;Santos et al., 1999;Aronovich & Carvalho, 1993;Rodrigues & Zevallos, 1991;Bertoni & Lombardi Neto, 1990;Fontanelie & Jaques, 1988;Dedecek et al., 1986;Willat & Pullar, 1983).Ordinary soil conservation research related to pastures confirms soil protection and low soil erosion rates in established pasture conditions, evaluates the effects of pasture degradation on soil and nutrient losses, and off-site (externality) effects of manure and organic compound Sci.Agric.(Piracicaba, Braz.), v.64, n.1, p.77-82, January/February 2007 enrichment, and delivery from grazing areas (Walbrink et al., 2003;Nicholson et al., 2001;Stout et al., 2000;Warren et al., 1986a;1986b;McGynty et al., 1978).In Brazil, soil conservation research related to pasture is scarce, but confirms low erosion rates and minor degradation processes.Pastures are never considered as a hot spot for erosion related off-site or local impacts (Souza, 2000;Santos, 1993;Dedecek et al., 1986;Eltz et al., 1977).
Brazil maintains agriculture or pastures covering approximately 27% of its territory.Pastures occupy most of these areas (76% of the total agricultural land) and cultivated pastures (100 million hectares) prevail on rangeland (78 million hectares) (Table 1).
Considering the extensive land occupied by cultivated pastures in Brazil and the complete soil exposure during its seasonal renewal required for the incorporation of amendments and fertilizers, and seedbed preparation, soil erosion impacts associated to pastures can not be neglected.These impacts will affect especially more fragile soils and preserved environments, raising the damage potential of soil loss and off-site impacts.Such impacts have been overlooked because of the lack of research and awareness priorities of soil conservation related to pastures, inherited from the simplistic perception that pastures protect soils against erosion.This "Point of View" shows through evaluations and mapping the potential dimension of soil erosion impacts on Brazilian cultivated pastures as compared to main agricultural crops (soybeans and corn).

Estimating and mapping pasture renewal
The last available information on national scale of pasture coverage in Brazil was obtained from the survey made in 1995/96 during the National Census of Agriculture (IBGE, 1998).In this survey, pastures are classified as cultivated or natural.Natural pastures are composed of rangeland and the animals feed from native species.In natural pastures the soil cover is never totally removed and the eventual use of fire is always associated to the dry season, not coincident with intense rainfall.
Cultivated pastures prevail in more developed regions and better-suited climatic conditions.Soil is tilled (plowing or disking) for seedbed preparation, weed control, soil amendment and fertilization for pasture implantation and renewal.Large areas are usually tilled and prepared, considering that most machinery is heavy and rented because farms specialized in cattle are normally not equipped for these seasonal operations.Support practices such as terracing are also not frequently employed.Thus, during pasture seeding and reseeding large and contiguous areas are intensively tilled, remain uncovered, and stay under these conditions until the new seeds sprout and the crop is established.
The area of pastures of the National Census of Agriculture was aggregated at the municipality level and is represented in Figure 1a.The proportion of cultivated and natural pastures is also presented in   (IBGE, 1998).²Source: Municipal agriculture production (IBGE, 2002).

Land Use Area Proportion
Agricultural land Territory Pastures occupy significant areas all over Brazil, except for the Northern region, mostly covered by forests.In the Central-Western region the predominance is for cultivated pastures, while natural pastures dominate part of the Southern region (Pampas) and the transition of humid to semi-arid climate in the Northeast (Agreste).Probably, by updating the 1995/96 data for today, the share between cultivated and natural pastures may have increased, following a national trend of agricultural intensification.Also, the National Census of Agriculture 1995/96 covered only 54% of the Brazilian territory, the remainder includes areas not surveyed (urban areas, natural forests, parks) but also remote areas, not reached by the survey; where extensive pastures prevail.Thus, the data shown graphically in Figure 1 and in Table 2 may be considered as a conservative projection of the occurrence of cultivated pastures in Brazil.
Considering the state level, the area of cultivated pastures is greater than the sum of the areas of soybean and corn (main agricultural land use in Brazil, which combined represent 52% of the crop area excluding pastures) in all cases, except for the States of Ceará, Paraná, Rio Grande do Sul and Santa Catarina.The three last compose the South region, which is the most intensively cultivated part of Brazil.Figure 2 shows the area of pasture renewal by municipality and Table 2 gives the numerical data.The data are based on expert's opinions that pastures are reseeded about every ten years.The estimates are probably conservative because the conversion of range land (natural pastures, forests and savannas) into cultivated pastures were not taken into account when making the estimates.
More prevalence of pastures under renewal is observed in the Central-Western region of Brazil.Partially, also the states of the Southern part of Brazil present significant areas of tilled pastures.In the Amazon region remarkable areas can be observed only in the State of Rondônia.The estimated area of tilled pastures of 10 million hectares raises this kind of noneprotective land use condition to the same magnitude of the main crops: a) soybean 16 million hectares, and b) corn 12 million hectares.Using the appeal for better soil conservation during the last 20 years most of the areas cultivated with soybeans and corn have shifted from conventional tillage (plowing and disking) sup-  ported by terracing to no-tillage (Denardin et al., 2001).The adoption of no-tillage in the Southern part of Brazil has increased from an average of 20% in the 80s to 90% in the 00s.A similar trend, but probably with slightly lower numbers, can be observed in all other annual crop's cultivated regions.The rationale for these is linked to reliable Research and Development (R&D) improvements and diffusion by both, private (agricultural supplies companies) and public sections (research facilities, universities and extension services) favorable to no-tillage (Landers, 2001).Thus, strong evidences suggest that pastures in renewal (considering the high efficiency of no-tillage in erosion control) are the main impacting land use  -------------------------------------------------------10³ ha -------------------------------------------------------  promoting erosion and on-site impacts in Brazil.This conclusion contests the common sense of pastures being a protective land use type.

Comparing pasture renewal and crops
The relative importance of pasture renewal and agricultural land use was evaluated by dividing it by the area of corn (Figure 3a) and soybeans (Figure 3b) at the municipality level.Values of this ratio higher than 1 (green and blue color on the map) indicate the number of times the area of pasture renewal is greater than the crop in the municipality.The red colors indicate regions where the ration is lower than 1, thus prevailing the crops.The extensive green and blue areas on the map indicate the areas where the main awareness

Potential impacts of soil erosion on cultivated pastures
The impacts of soil erosion in pastures, considering the extension of 10 million hectares of pasture renewal per year and the large spatial dispersion of these areas, cannot be considered only locally.Especially the Central-Western region and large portions of the Southeastern region are threatened erosion impacts by this kind of land use.Considering the relatively long period between pasture renewals (estimated in 10 years) short-term impacts on productivity should not be observable.Also, pasture renewal is usually combined with lime, gypsum or fertilizer application, which compensate for nutrient and productivity losses associated to soil erosion.Erosion induced productivity impacts in fertilized deep tropical soils may not be observed, even with high erosion rates, until soil depth or physical properties become restrictive (Sparovek & Schnug, 2001, Sparovek & De Maria, 2003).
The main impacts of soil erosion on tilled pastures will be associated to off-site (externality) impacts related to a) silting and sedimentation of water reservoirs and rivers that may contribute to river floods, freshwater degradation and life-time reduction of water dam facilities (Stout et al., 2000, Daniels & Gilliam, 1996, Thurow et al., 1986); b) degradation of riparian areas and basin valleys (trapping regions of sediments) that can be related to wild-life and biodiversity destruction; and c) long term soil depth loss related to production sustainability (Clark et al., 1985).These impacts are not directly perceived at the farm production level.

Conclusions, policy and research needs
An important progress in soil conservation in Brazil was achieved by the large adoption of no-tillage in most annual crops.The reason for ignoring 10 million hectares of reseeded pastures per year, that are probably more susceptible to soil degradation than conventionally tilled crops and are in a more fragile environment, where pastures are large and in contiguous blocks; has to be understood before a policy to combat erosion can be designed.Part of this can probably be explained by the lack of concern of the private sector in acting in R&D creation and diffusion in processes that cannot be traded or appropriated (Alston & Pardey, 1999).Corn and soybean no-tillage is pushed by a need for specific machines and supplies (herbicides) that attract private companies to the market.No such products can be related to the tillage and renewal of pastures by farmers.Fertilizers and soil amendments the farmer will use in any case when renewing pastures, with or without tillage.
Considering this market failure and excluding the private sector as a partner to create R&D, enforce- ment, policy, and educational programs are the tools to face the problem.The rationale for a total disengagement of scientific institutions and staff with the subject and its non-consideration in any Brazilian public policy related to soil and water conservation may only be explained by the absence of perception and awareness of the problem.Basic research will have to cover the problem from the beginning, starting with comprehensive data on pasture renewal (frequency, locations, and management options) and passing through the option to avoid or reduce erosion impacts and soil loss in cultivated pasture implantation and renewal.
Figures 1b and 1c.Pasture areas are represented as the percentage of municipal territory occupation.

Figure 1 -
Figure 1 -Total, cultivated and natural pasture distribution in Brazil in relation to the municipal areas (1995/96 Census of agriculture, source IBGE, 1998).

Figure 2 -
Figure 2 -Pasture renewal in relation to the municipal areas (1995/96 Census of agriculture, source IBGE, 1998) considering an interval of ten years of seasonal tillage for the cultivated pastures.
Sci. Agric.(Piracicaba, Braz.), v.64, n.1, p.77-82, January/February 2007 in relation to soil erosion should focus on pastures and not on corn or soybeans.Although, R&D creation and diffusion focus predominately on crops and marginally address to pastures.

Figure 3 -
Figure 3 -Ratio between renewal pasture areas (considering an average renewal frequency of ten years and pasture areas in 1995/96 (1995/96 Census of agriculture, source IBGE, 1998) and corn (a) and soybean (b) cultivated areas (Municipal Agricultural Production in 2002, source IBGE, 2002).

Table 1 -
Agricultural land use in Brazil.

Table 2 -
Annual and permanent crops, corn, soybean, and pasture areas in Brazil.