eprintid: 3565
rev_number: 11
eprint_status: archive
userid: 30
dir: disk0/00/00/35/65
datestamp: 2011-11-02 12:33:12
lastmod: 2011-11-02 12:33:12
status_changed: 2011-11-02 12:33:12
type: conference_item
metadata_visibility: show
contact_email: Library-ICRISAT@CGIAR.ORG
item_issues_count: 0
creators_name: Boomiraj, K
creators_name: Wani, S P
creators_name: Agrawal, P K
icrisatcreators_name: Wani, S P
affiliation: TNAU-ARS(Kovilpatti)
affiliation: ICRISAT(Patancheru)
affiliation: IARI(New Delhi)
country: India
title: Impact of Climate Change on Dryland Sorghum in India
ispublished: pub
subjects: s1.4
subjects: s2.14
subjects: s2.8
full_text_status: public
pres_type: paper
keywords: InfoCrop, Simulation, Watershed, Adaptation, Dry matter,Leaf area index, Maturity, India, SAT
note: We acknowledge Sir Dorabji Tata Turst and Sir Ratan Tata Trust forproviding financial support for this study and NRC–Sorghum forproviding data for model calibration and validation
abstract: This paper presents results of climate change impacts on sorghumin semi arid tropics (SAT) regions of India and adaptation strategiesto overcome the impact. The main objective of the paper is how touse crop simulation model to assess the climate change impact andhow best we can reduce the impact through integrated watershedapproach. InfoCrop, a generic dynamic crop model, provides inte-grated assessment of the effect of weather, variety, pests, and soilmanagement practices on crop growth and yield, on soil nitrogen andorganic carbon dynamics in aerobic, anaerobic conditions, and alsogreenhouse gas emissions. The model has reasonably predictedphenology, crop growth yield. Sorghum crop was found to be sensitiveto changes in carbon dioxide (CO2) and temperature. Future climatechange scenario analysis showed that sorghum yields (CSH 16 andCSV 15) are likely to reduce at Akola, Anantpur, Coimbatore andBijapur. But yield of CSH 16 will increase little in Gwalior (0.1%) at2020 and there after it will reduce. At Kota, the sorghum yield is likelyto increase at 2020 (3.3 & 1.7% in CSH 16 and CSV 15, respectively)and no change at 2050 and yield will reduce at 2080 in both varieties.The increase in yield at Gwalior and Kota at 2020 will be due toreduction in maximum temperature and increase in rainfall from thecurrent. Adoption of adaptation measures like one irrigation (50mm)at 40-45 days after sowing would be better for rain-fed kharif sorghumin the selected location of the SAT regions. The yield gap betweendistrict average and simulated rain-fed potential is so wide at Akola,Anantpur, Bijapur and Kota compared with Coimbatore and Gwalior. Ifwe bridge the yield gap, we can overcome the climate change impact.Integrated Genetic and Natural Resource Management (IGNRM)through watershed management would be an appropriate method tobridge the yield gap to sustain the sorghum yield and food security
date: 2011
date_type: published
pagerange: 292-304
event_title: Use of High Science Tools in Integrated Watershed Management Proceedings of the National Symposium
event_location: NASC Complex, New Delhi, India
event_dates: 1–2 February 2010
event_type: conference
refereed: TRUE
related_url_url: http://scholar.google.co.in/scholar?hl=en&q=allintitle%3A+%22Impact+of+Climate+Change+on+Dryland+Sorghum+in+India%22&btnG=Search&as_sdt=0%2C5&as_ylo=&as_vis=0
related_url_type: author
funders: Sir Dorabji Tata Turst
funders: Sir Ratan Tata Trust 
citation:   Boomiraj, K and Wani, S P and Agrawal, P K  (2011) Impact of Climate Change on Dryland Sorghum in India.  In: Use of High Science Tools in Integrated Watershed Management Proceedings of the National Symposium, 1–2 February 2010, NASC Complex, New Delhi, India.     
document_url: http://oar.icrisat.org/3565/1/Impact_of_climate_change_on_dryland_sorghum_in_India.pdf