Remote sensing for sustainable sugarcane production

Workshop Agro-environmental impact of biofuels and bioenergy Remote sensing for sustainable sugarcane production Campinas, 01 December 2011 National nstitute for Space Reseach NP Remote Sensing Division - DSR Laboratory of Remote Sensing in Agriculture and Forestry - LAF Bernardo Rudorff bernardo@dsr.inpe.br

Biofuels are an alternative to fossil fuels to mitigate GHG and potential global warming; Brazil is using bioethanol from sugarcane since 1980 s; thanol production from sugarcane is very efficient; n 2003 Brazil started to produce flex cars; 90% of sugarcane in Brazil is cultivated in the South- Central Region; Cultivated sugarcane land went from 4,3 Mha in 2003 to 8,6 Mha in 2011 LUC and crop management have major impacts on GHG mitigation; Remote sensing tools have great potential to monitoring sugarcane crop.

The Canasat Project Monitoring of Sugarcane Crop using Remote Sensing mages 1. Mapping and Forecasting Cultivated Area; 2. Monitoring of Harvest Practice; 3. Land Use Conversion Due to xpansion; 4. Time-series to Monitor Land Use Change.

The Canasat Project Monitoring of Sugarcane Crop using Remote Sensing mages Forecast of Cultivated Area

xpansion Sugarcane Plant

Renewal Sugarcane Plant

http://www.dsr.inpe.br/laf/canasat/

alidation of Sugarcane map Spatial distribution of 1504 sampled points

alidation of Sugarcane map crop year 2009/10 Mapping Precision 98% rror stimation 0,22% (~18 mil ha)

The Canasat Project Monitoring of Sugarcane Crop using Remote Sensing mages Monitoring of Sugarcane Harvest Practice Green Harvest & Pre-Harvest Burning

Monitoring of Sugarcane Harvest Practice Green Harvest Pre-Harvest Burning

Green harvest and Pre-harvest burning

Percentage of harvested sugarcane Harvest Season Harvest Type Green harvest Pre-harvest Burning 2006 34.2 65.8 2007 46.6 53.4 2008 49.1 50.9 2009 55.5 44.5 2010 55.6 44.4 2011 64,8 35.2 2006 2007 2008 2009 2010

The Canasat Project Monitoring of Sugarcane Crop using Remote Sensing mages valuation of Land Use Conversion Classes Due to xpansion

Area (1,000 ha) xpansion of Sugarcane in South-Central Brazil 2005/06 to 2010/11 1.200 1.162 1.000 1.022 800 728 600 529 400 408 391 239 200 0 2011/12 2005/06 2006/07 2007/08 2008/09 2009/10 2010/11 Relative expansion 8.5% 10.0% 16.4% 15.9% 9.0% 4.7% 1.9% Cultivated Safra area (1,000 ha) 4,786 5,269 6,221 7,326 8,007 8,341 8,500

direct Land Use Change Pasture Soybean Citrus Arboreous egetation

1.821.391 52% 43.869 1% 10.208 0% 1.821.391 52% 43.869 1% 10.208 0% 1.663.886 47% Reference Year 2006 1.663.886 47% Crop Pasture Citrus Agricola Pastagem Agricola Arboreous Pastagem egetation Citrus Citrus egetação Arbórea Reflorestamento egetação Arbórea Reflorestamento Land use prior to sugarcane expansion over four crop seasons: 2006/07 to 2009/10

Land Use Change Dynamic from 2000 to 2009 for Sugarcane xpansion during 2006 to 2009 100% 1% 3% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% 26% 44% 51% 59% 71% 70% 65% 1% 85% 1% 48% 98% 98% 17% 7% 1% 3% 1% 1% 1% 3% 3% 3% 37% 41% 38% 24% 26% 30% 26% 12% 1% 1% 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Área Annual Agrícola Crop Cana-de-açúcar Sugarcane Citrus Pastagem Pasture egetação Forest Arbórea

Thematic Project FAPSP/BON Process 2008/56252-0 nvironmental and Socioeconomic mpacts Associated with the Production and Consumption of Sugarcane thanol in South Central Brazil Principal nvestigator: Bernardo Rudorff (NP) Co-Principal nvestigators: vlyn Novo (NP) Cláudia Almeida (NP) Karla Longo (NP) Saulo Freitas (NP) Mirian Bacchi (SALQ-USP) Claudio Barbosa (NP) lisabete Morais (NP) Mauricio Alves Moreira (NP) José Stech (NP) João Lorenzetti (NP) nner Alcântara (NP) Plínio Alvalá (NP) Sergio Franchito (NP) Luciano Marani (NP) ly Cortez (NP) Turibio Soares Neto (NP) Maria Cristina Forti (NP) José Alexandre Melo Demattê (SALQ- USP) Carlos Clemente Cerri (CNA-USP) saias de Carvalho Macedo (NP- UNCAMP) Associate nvestigators: Britaldo Soares Filho (UFMG) Sandra Hacon (FioCruz - RJ) liane gnotti (FioCruz - RJ) Work packages 1) Temporal-spatial evaluation of sugarcane crop based on remote sensing images 2) Temporal-spatial analysis of sugarcane albedo and spectral reflectance 3) Spatial dynamic modelling to generate scenarios for sugarcane crop expansion 4) Temporal-spatial evaluation of inland aquatic system s eutrophication in response to sugarcane expansion using remote sensing images 5) Assessing the regional weather, climate and air chemistry composition impacts of the ethanol sugarcane production in South Central Brazil 6) Characterization of the atmospheric chemistry composition changes and its impacts associated with sugarcane plantation and ethanol and bioelectricity plants in South Central Brazil 7) The impacts of Brazilian biofuel program on human health 8) Social-economic impacts of the expansion of sugarcane activity in the São Paulo State January 2011/December 2014

-2 0,7 MODS time-series to evaluate degadated pasture land 0,6 0,5 0,4 0,3 0,2 0,1 0 1/7/2000 1/7/2001 1/7/2002 1/7/2003 1/7/2004 1/7/2005 1/7/2006 1/7/2007 1/7/2008 1/7/2009 Pastagem Ruim Pastagem Boa 6.25 ha 6.25 ha

Município de Buritizeiro, Minas Gerais

SOY MORATORUM MONTORNG SOY PLANTATON N TH AMAZON BOM 4 TH YAR Crop Year 2010/11

Soybean in the Amazon biome PA RO MT Brazilian Amazon biome = 4.2 Mkm 2 49.3% of Brazilian Territory 9 states and 553 municipalities 7.5% of Brazilian soybean is in the Amazon biome 99% of it is planted in Mato Grosso, Pará and Rondônia 98% is planted in 53 municipalities

Monitored Land in the Amazon Bioma Deforestation in the Legal Amazon from 2007 to 2010 was 39.026 km 2 53 municípalities represent 98% of the planted soy land in the Amazon Biome These municípalities were responsible for the deforestation of 4.862 km 2 (12,5%)

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 1 0,8 0,6 0,4 0,2 0,8 0,6 0,4 0,2 0 0

Monitoring Deforested Fields through Satellite mages 1,0-0,3 1 0,8 0,6 0,4 0,2 Selected With annual crop 1 0,8 0,6 0,4 0,2 Not-Selected Without annual crop 0 0

Summary Deforestation in the Legal Amazon during the period from 2007 to 2010 was 39,026 km 2 n municipalities with soy in the Amazon Biome the deforestation was 4,862 km 2 (12.5%) n the 4th year of the Moratorium 11,698 ha with soy were identified: an increase of 86% in relation to the previous year (6.295 ha) The soybean land in deforested land in the Amazon Biome corresponds to: 0.3% of the deforested land in the Legal Amazon; 2.4% of the deforestation in municipalities with soy or 3.1% of deforested fields with > 25 ha; 0.6% of the soy planted land in the Amazon Biome. Brazilian soy planted area is 24.1 Mha of which 1.9 Mha (8%) in in the Amazon Biome.

PRODS deforested field that was contested by the farmer 04/08/2002

PRODS deforested field that was contested by the farmer 21/12/2003 Degradação florestal

PRODS deforested field that was contested by the farmer 16/07/2004

PRODS deforested field that was contested by the farmer 11/07/2005

Data da moratória 24/07/2006 PRODS deforested field that was contested by the farmer 22/07/2006

PRODS deforested field that was contested by the farmer Conclusion: The field was actually deforested within the Soy Moratorium 10/08/2007 Deforestation was carried out from January through August 2007

PRODS deforested field that was contested by the farmer Soybean Planted 09/01/2011

Canasat Team André Moscardo Luz Antonio R. Formaggio Arley Ferreira de Souza Bernardo F. T. Rudorff Daniel Alves de Aguiar Daniela Brandão dison Crepani gidio Arai lizabeth Goltz Fernando Yuzo Sato Flávia de Souza Mendes Joel Risso Juliana Silveira Juliano ieira de Paula Jussara Medeiros Letícia Andreucci Macedo Luciana Miura Sugawara Magog Araújo de Carvalho Márcio Pupin Mello Marco Aurélio S. arlez Marcos Adami Maurício Alves Moreira Ramon Morais de Freitas Rita de Cassya Tamara de Morais Fernandes Tânia Litsue Aulicino Yosio. Shimabukuro Trainee NP/DSR Webmaster - Project contract NP/DSR Doctorate Student SR Fellowship PC/NP NP/DSR NP/DSR Fellowship PC/NP Trainee Fellowship PC/NP MSc. Student SR Doctorate Student SR Trainee Project contract Trainee Post Doctorate Project contract Doctorate Student SR Trainee Post Doctorate NP/DSR Doctorate Student CAP Fellowship PC/NP Project contract Project contract NP/DSR

Links http://www.dsr.inpe.br/laf/canasat/ https://www.dsr.inpe.br/laf/series/