Is the expansion of sugarcane over pasturelands a sustainable strategy for Brazil's bioenergy industry?

Oliveira, Dener Márcio da Silva; Cherubin, Maurício Roberto; Franco, André L.C.; Santos, Augusto Seabra; Gelain, Jaquelini Gisele; Dias, Naíssa Maria Silvestre; Diniz, Tatiana Rosa; Almeida, Alexandre Nunes de; Feigl, Brigitte Josefine; Davies, Christian A.; Paustian, Keith; Karlen, Douglas L.; Smith, Pete; Cerri, Carlos C.; Cerri, Carlos Eduardo Pellegrino

doi:10.1016/j.rser.2018.12.012

Cited by 58 publications

(38 citation statements)

References 51 publications

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“…Our findings showing soil physical degradation and its consequent negative implications on water dynamics in extensive PA soils confirm what previous studies with a broader scope have reported, namely that those areas are characterized by poor overall soil quality [42] and provision of soil-related ecosystem services [13], low productivity and stocking rate [5], and low economic developments to farmers, workers, and the surrounding urban centers [13]. Due to all these environmental and socio-economic aspects, the prevalent scenario of sugarcane and other annual crops expansion has been, and will continue to be, over areas previously occupied with extensive pasture [4,13]. The full monitoring of PA soil conditions is fundamental to evaluate if sugarcane cultivation is degrading, sustaining, or even enhancing soil quality compared to the pasture baseline.…”

Section: Land Transition From Native Vegetation To Pasturesupporting

confidence: 91%

Linking Soil Water Changes to Soil Physical Quality in Sugarcane Expansion Areas in Brazil

Luz

Carvalho

Borba

et al. 2020

Water

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Brazil is the world’s largest sugarcane producer with projections for expanding the current area by 30% in the coming years, mainly in areas previously occupied by pastures. We assess soil water changes induced by land-use change (LUC) for sugarcane expansion in the central-south region of Brazil. For that purpose, soil samples were collected in a typical LUC sequence (native vegetation–pasture–sugarcane) in two contrasting soil textures (i.e., sandy and clayey). Soil hydro-physical properties such as pores size distribution, bulk density, soil water content, water tension, and drainage time at field capacity, plant-available water, and S-index were analyzed. Our data showed that long-term LUC from native vegetation to extensive pasture induced severe degradation in soil physical quality and soil water dynamics. However, conventional tillage used during conversion from pasture to sugarcane did not cause additional degradation on soil structure and soil water dynamics. Over time, sugarcane cultivation slightly impaired soil water and physical conditions, but only in the 10–20 cm layer in both soils. Therefore, we highlight that sustainable management practices to enhance soil physical quality and water dynamics in sugarcane fields are needed to prevent limiting conditions to plant growth and contribute to delivering other ecosystem services.

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Section: Land Transition From Native Vegetation To Pasturesupporting

confidence: 91%

Linking Soil Water Changes to Soil Physical Quality in Sugarcane Expansion Areas in Brazil

Luz

Carvalho

Borba

et al. 2020

Water

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“…Brazil, one of the world's leading producers and suppliers of food, fibres and bioenergy 3 , is an emerging nation whose agriculture has rapidly expanded in recent decades, notably in the Cerrado region (over 204 million hectares (Mha)), and whose land base and deep soils provide large opportunity for conversion of extensive pasturelands into intensive croplands 4 . This land use transition is a promising scenario to allow agricultural expansion in Brazil with minimum environmental impacts 5 – 7 . However, one major economic and environmental issue associated with expansion and intensification of Brazilian agriculture is the substantial increase in fertiliser demand to sustain crop yields in these new areas (mainly in Cerrado region) characterized by highly-weathered, acid and P-fixing soils 8 .…”

Section: Introductionmentioning

confidence: 99%

Revealing soil legacy phosphorus to promote sustainable agriculture in Brazil

Pavinato¹,

Cherubin²,

Soltangheisi³

et al. 2020

Sci Rep

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110

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Exploiting native soil phosphorus (P) and the large reservoirs of residual P accumulated over decades of cultivation, namely “legacy P”, has great potential to overcome the high demand of P fertilisers in Brazilian cropping systems. Long-term field experiments have shown that a large proportion (> 70%) of the surplus P added via fertilisers remains in the soil, mainly in forms not readily available to crops. An important issue is if the amount of legacy P mobilized from soil is sufficient for the crop nutritional demand and over how long this stored soil P can be effectively ‘mined’ by crops in a profitable way. Here we mapped the spatial–temporal distribution of legacy P over the past 50 years, and discussed possible agricultural practices that could increase soil legacy P usage by plants in Brazil. Mineral fertiliser and manure applications have resulted in ~ 33.4 Tg of legacy P accumulated in the agricultural soils from 1967 to 2016, with a current annual surplus rate of 1.6 Tg. Following this same rate, soil legacy P may reach up to 106.5 Tg by 2050. Agricultural management practices to enhance soil legacy P usage by crops includes increasing soil pH by liming, crop rotation, double-cropping, inter-season cover crops, no-tillage system and use of modern fertilisers, in addition to more efficient crop varieties and inoculation with P solubilising microorganisms. The adoption of these practices could increase the use efficiency of P, substantially reducing the new input of fertilisers and thus save up to 31.8 Tg of P fertiliser use (US$ 20.8 billion) in the coming decades. Therefore, exploring soil legacy P is imperative to reduce the demand for mineral fertilisers while promoting long-term P sustainability in Brazil.

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“…Other authors argue that ethanol has significantly grown in popularity due to government regulations and economic incentives [56], but that this kind of feedstock is essentially food, and other sources for bio-ethanol production exist that could substitute sugarcane [57]. At the same time, the demand for sugarcane used as biofuel in countries such as Brazil [58] has led to an increase in the sugarcane production area, in some cases, converting pasturelands to sugarcane fields [59]. This has been an important debate among researchers, generating many publications oriented towards the demonstration of its technical and economic viability for promising new raw materials, e.g., microalgae [60] or alternative energy sources, as well as the way to process them and the technology developed to that end, representing a threat for sugarcane based energy production.…”

Section: Discussionmentioning

confidence: 99%

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

Figueroa-Rodríguez

Hernández‐Rosas

Sandoval

et al. 2019

IJERPH

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Sugarcane is one of the main crops worldwide, and it has an important impact on environmental issues. A bibliometric mapping analysis of the research on sugarcane was carried out, using data on the titles, abstracts, and keywords of articles published in leading journals and other peer-reviewed documents available in the SCOPUS database from 1858 to 2019 (27 August), and this was subsequently analyzed with the software VOSviewer. The three most important countries that publish research and were most-cited regarding sugarcane were Brazil, the USA, and India. The analysis of the co-occurrence of terms shows that the main research areas were sugarcane bagasse and terms related to bioenergy, and on a second level of relevance agronomy topics related to increasing crop yields. This first attempt to visualize the abundance of publications regarding sugarcane in their totality is in itself a good starting point for further scientific discussion.

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Is the expansion of sugarcane over pasturelands a sustainable strategy for Brazil's bioenergy industry?

Cited by 58 publications

References 51 publications

Linking Soil Water Changes to Soil Physical Quality in Sugarcane Expansion Areas in Brazil

Linking Soil Water Changes to Soil Physical Quality in Sugarcane Expansion Areas in Brazil

Revealing soil legacy phosphorus to promote sustainable agriculture in Brazil

What Has Been the Focus of Sugarcane Research? A Bibliometric Overview

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