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现货Sustainable Micro Irrigation[9781682500309]
¥ 1434 九五品
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上海宝山
认证卖家担保交易快速发货售后保障
作者Mamta Mehra, Devesh Sharma
出版社Magnum Publishing LLC
ISBN9781682500309
出版时间2016-01
装帧精装
纸张其他
正文语种英语
上书时间2023-08-08
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Micro irrigation is de ned as the frequent application of small quantities of water directly above and
below the soil surface; usually as discrete drops, continuous drops or tiny streams through emitters
placed along a water delivery line. The text Sustainable Micro Irrigation o ers a vast amount of knowledge
and techniques necessary to develop and manage a drip/trickle or micro irrigation system. First
chapter analyzes the performance of micro-irrigation system. The aim of second chapter is to determine
the energy and water use e ciencies under the modi cation of closed circuit drip irrigation
systems designs. The objective of third chapter is to assess the production potential, performance, and
water use e ciency (WUE) of rice under plastic mulching with drip irrigation. The purpose of fourth
chapter is to investigate the e ect of pulse drip irrigation and mulching systems for increasing yield,
irrigation water use e ciency and improvement of quality traits for soybean crop in arid and semi-arid
regions. Required lateral inlet pressure head for automated subsurface drip irrigation management
has been discussed in fth chapter. The objective of sixth chapter is to evaluate the e ect of subsurface
drip irrigation (SDI) and furrow irrigation on onion yield and irrigation use e ciency. In seventh
chapter, the yield response of drip-irrigated onion under full and de cit irrigation with saline water in
arid regions of Tunisia has been outlined. The purpose of eighth chapter is maximizing utility from
wastewater of sh farms in agriculture (potato cultivation) under arid regions conditions. The goals of
ninth chapter are to estimate the amount and depth of water and nitrate-nitrogen (NO3-N) fronts,
water and NO3-N balances, and irrigation e ciencies for two onion (Allium cepa L.) elds under furrow
and drip irrigation systems. E ect of air injection under subsurface drip irrigation on yield and water
use e ciency of corn in a sandy clay loam soil has been investigated in tenth chapter. Eleventh chapter
shows how system identi cation techniques can be applied to obtain nonlinear virtual sensors for
estimating transpiration. Twelfth chapter studies the assembly options by the analytic hierarchy
process (AHP) model and the multi-dimension scaling (MDS) techniques. Thirteenth chapter presents
a sustainable water management trial at Butler, a northern sub-urban development in Perth, Western
Australia, for urban irrigation. The aim of fourteenth chapter is to study the e ect of drip irrigation
circuits (DIC). For testing closed circuits of mini-sprinkler irrigation system, automation controller
system and simulation program have been used in fteenth chapter. Sixteenth chapter investigates
the e ect of closed circuits drip irrigation system and lateral lines length on growth, yield, quality and
water use e ciency of soybean crop. The objective of seventeenth chapter is to compare di erent
strategies for timing of injection, to develop management practices on the e cient use of water and
fertilizers in production of sugarcane, maximize yield, and improve quality. The objectives of eighteenth
chapter are to safely utilize saline water resources that maintain economic yield and improve
the quality of tomato. Last chapter discusses how to utilize subsurface drip irrigation and conservation
tillage in cotton production systems.
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