Prospects for multifunctionality of paddy rice cultivation in Japan and other countries in monsoon Asia

Matsuno, Yutaka; Nakamura, Kimihito; Masumoto, T.; Matsui, Hiroyuki; Kato, Tasuku; Sato, Yohei

doi:10.1007/s10333-006-0048-4

Cited by 93 publications

(61 citation statements)

References 14 publications

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“…In addition, harvesting rice straw for ethanol production could reduce methane emission from straws incorporated into lowland paddy fi elds (Fumoto et al, 2008). Bioethanol production in abandoned paddy fi eld does not cause additional GHGs emission due to land use changes, but more likely contributes to preservation of multi-functionality of paddy field including flood control, groundwater recharge, landslide prevention, and contribution to biodiversity (Matsuno et al, 2006). It is important to consider rice production in lowland paddy fi eld systems itself as highly sustainable.…”

Section: Bioethanol From Rice Plants Grown In Abandoned Lowland Paddymentioning

confidence: 99%

Energy Crops for Sustainable Bioethanol Production; Which, Where and How?

Hattori

Morita

2010

Plant Production Science

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Section: Bioethanol From Rice Plants Grown In Abandoned Lowland Paddymentioning

confidence: 99%

Energy Crops for Sustainable Bioethanol Production; Which, Where and How?

Hattori

Morita

2010

Plant Production Science

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“…Paddy fields function as carrier to human's need for food, especially rice, which developed by permanently converting existing natural ecosystem into this specific man-made infrastucture to achieve food suficiency. But as time elapsed, paddy fields became advanced manmade ecosystems that develop into multi-function ecosystem which provides other benefits for human beings (Huang, et al, 2006;Matsuno et al, 2006). Environmental services produced by paddy fields are considered to be public goods, which are beneficial to society and their surrounding (Iiyama et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Buffering capacity of paddy field as the reservoir of rainwater and surface runoff in the Lowokwaru subdistrict, Malang, East Java

Suprihati¹,

Hanani

Irianto

et al. 2018

J.Degrade.Min.Land Manage.

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Abstract:Paddy fields produce ecological services that improve environmental quality in urban areas, one of them was flood control through retaining rainwater and surface runoff within the embankment of paddy field. The ability to retain water is known as the buffering capacity (BC), which is the function of soil moisture, embankment height, water inundation and rice-plant interception during the growing periode. The intermitten system of water inundation applied by farmers resulted in changes of the BC on daily basis. The calculation of BC was divided into five categories for accuracy, which were : (1) BC during the Harvest; (2) BC with inundation at vegetative and generative phase (VGG); (3) BC with inundation during Land Preparation and Planting phase (OTTG); (4) BC without inundation during the vegetative and generative phase (VGTG); and (5) BC without inundation during the land preparation and planting phase (OTTTG). The purpose of this research was to measure potential buffering capacity of paddy field in Lowokwaru Subdistrict and to estimate amount of rainwater and surface runoff which could be accommodated within the buffering capacity. The average of daily BC in seven different villages were 1,650.81-3,961.81 m 3 /ha and the total BC for 241 paddy field was about 823,156.36 m 3 . It was only a small percentage of average daily BC filled by rainwater (14.07-33.31%) and left the rest to be filled by surface runoff water. The paddy field of 241 ha in Lowokwaru Subdistrictis was capable to receive surface runoff from surrounding areas up to 1,698.66 ha.

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“…In contrast, rice paddy production sector cannot endure without subsidies due to associated high production costs but low market prices. Accordingly, the sector cannot globally compete in a free trade market against cheaper rice from other countries (Katayama et al, 2015;Matsuno et al, 2006). As a result, the trans-pacific partnership (TPP) is widely viewed more of a threat than an opportunity by the rice farming community of Japan.…”

Section: Introductionmentioning

confidence: 99%

Robust optimal model for sustainable joint production of green tea and paddy rice in Japanese agricultural watersheds

Mabaya

Unami

Takeuchi

et al. 2017

IJISD

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Abstract:In Japanese hilly agricultural watersheds, green tea is a profitable crop, whereas paddy rice cannot endure without subsidies. Environmentally, green tea plantations are the highest nitrate pollutant emitters to water bodies, whereas paddy fields are the most significant nitrogen sinks. This study investigates the effectiveness of diverting nitrate-contaminated drainage water from upland tea fields to the lowland paddy fields, in terms of reduction of downstream pollution and rice production cost, using the robust optimal model. The model optimally maximises diversions to reduce nitrate pollution to the adjacent rivers, and is environment risk averse to possible malfunctioning denitrification processes in the respective paddy fields. The application shows increased diversions to paddy fields during the rice growing season, thereby facilitating rice plants to have optimal access to substantial amounts of nitrogen nutrients and water. Thus, the robust optimal model has the potential to support sustainable joint production of the two crops.Keywords: robust optimisation; sustainable production; green tea; paddy rice; agricultural drainage water; nitrogen pollutants.Reference to this paper should be made as follows: Mabaya, G., Unami, K., Takeuchi, J., Fujihara, M. and Yoshioka, H. (2017) 'Robust optimal model for sustainable joint production of green tea and paddy rice in Japanese agricultural watersheds ', Int. J. Innovation and Sustainable Development, Vol. 11, No. 1, 70 G. Mabaya et al.Biographical notes: Goden Mabaya, MSc (Water Science and Engineering) 2012 UNESCO-IHE, Netherlands, is a PhD student in Water Resources Engineering at the Graduate School of Agriculture, Kyoto University, Japan. He has an extensive technical experience in planning, designing, construction and water management of multiuser irrigation and drainage systems in Africa. His research interests are robust optimisation of integrated agricultural watershed management with an emphasis on environmental sustainability, environmental water quality management, and post-modernisation of irrigation and drainage systems.Koichi Unami, PhD (Agriculture) 1998, Kyoto University, is an Associate Professor at Graduate School of Agriculture, Kyoto University, Japan. His research topics include theories and practices of water resources and environment management in rural areas, with specific emphasis on robustness in decision-making under uncertainty. For example, he determines operation rules for irrigation dams with irregular occurrence of recharge events in the framework of stochastic control. He is also an expert in field studies with different agro-ecological climates in Asia and Africa, such as Lake Biwa Basin of Japan and Volta Basin of West Africa.Junichiro Takeuchi, PhD (Agriculture) 2010, Kyoto University, is an Assistant Professor of Water Resources Engineering at Graduate School of Agriculture, Kyoto University, Japan. His main research interests include fluid flow and solute/energy transport through porous media and environmentally so...

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Prospects for multifunctionality of paddy rice cultivation in Japan and other countries in monsoon Asia

Cited by 93 publications

References 14 publications

Energy Crops for Sustainable Bioethanol Production; Which, Where and How?

Energy Crops for Sustainable Bioethanol Production; Which, Where and How?

Buffering capacity of paddy field as the reservoir of rainwater and surface runoff in the Lowokwaru subdistrict, Malang, East Java

Robust optimal model for sustainable joint production of green tea and paddy rice in Japanese agricultural watersheds

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