stdClass Object ( [id] => 8076 [paper_index] => EW201803-01-002366 [title] => IMPACT OF CLIMATE CHANGE ON FARM HOUSEHOLDS IN CUDDALORE DISTRICT TAMIL NADU [description] =>
  1. Miguel A. Altieri  and Clara I. Nicholls (2017) The adaptation and mitigation potential of traditional agriculture in a changing climate, Climatic Change, 2017, vol. 140, issue 1, pages 33-45
  2. Delaporte Isaure and Mathilde Maurel   (2016), Adaptation to Climate Change in Bangladesh, No P145, Working Papers from FERDI
  3. Jagadish Thaker and Anthony Leiserowitz (2013) “Influence of Weather on Temporary and Permanent Migration in Rural India” Climate Change Economics (CCE), vol.04, issue 02, pages 1350007-1-1350007-19.
  4. Naresh Soora, P. Aggarwal, Rani Saxena, Swaroopa Rani, Surabhi Jain and Nitin Chauhan (2013) “An assessment of regional vulnerability of rice to climate change in India” Climatic Change, vol. 118, issue 3, pages 683-699
  5. Prabhat Barnwal and Koji Kotani (2013), “Climatic impacts across agricultural crop yield distributions: An application of quantile regression on rice crops in Andhra Pradesh, India” Ecological Economics, vol. 87, issue C, pages 95-109.
  6. S. Naresh Kumar and P.K. Aggarwal (2013), “Climate change and coconut plantations in India: Impacts and potential adaptation gains” Agricultural Systems, vol. 117, issue C, pages 45-54
  7. 7.S. Mahendra Dev (2011) “Climate change, rural livelihoods and agriculture (focus on food security) in Asia-Pacific region” Indira Gandhi Institute of Development Research, Mumbai Working Papers from Indira Gandhi Institute of Development Research, Mumbai, India
  8. 8.K.S. Kavi Kumar (2009) “Climate Sensitivity of Indian Agriculture” Working Papers from Madras School of Economics, Chennai, India
  9. Prasad, R and Rana, R. 2006. A study on maximum temperature during March 2004 and its impact on rabi crops in Himachal Pradesh. J. of Agrometeorol 1: 91-99
  10. Sreenivas, G., Reddy, D.R and Rao., S B S.N. 2005. Influence of weather parameters on yield of lowland rice (Oryza sativa L.) J.of Agrometeorol. 7(1):69-75
  11. Sreekanth, P.D., Yadukumar, N and Naik, M.G. 2004. Cashew yield forecasting under different planting densities. J. of Plantation Crops. 32(3): 58-63
  12. Haldankar, P.M., Deshpande, S.B., Chavan, V.G., Nadkarni, H.R., Patil, B.P., Joshi, G.D., and Rao, E V V.B 2002. Crop weather association in mixed population of cashew hybrids. J. of Plantation Crops 2002, 30(3):37-40
[author] => K.Kanageswari [googlescholar] => https://scholar.google.co.in/citations?user=KeqZGcIAAAAJ&hl=en [doi] => [year] => 2018 [month] => February [volume] => 6 [issue] => 2 [file] => eprapub/EW201803-01-002366.pdf [abstract] =>

The climate change results in extreme weather events in terms of erratic rainfall, delayed rainfall, unseasonal rainfall, over rainfall, deviation from normal rainfall, frequent occurrence of drought and desertification. Climate change alters the cropping pattern and farming practices. Climate change has significant impact on sustainable farming practices. This paper deals with impact of climate change on farm households. It outlines the various indicators on impact of climate change on farm households. This paper identifies various impact of climate change on farm households according to their farm size, education level, family size and gender status. This paper concludes with some interesting findings.

KEYWORDS: climate change, erratic rainfall, farm households, cropping pattern, food security

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