Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China

doi:10.1016/S2095-3119(15)61184-4

Journal of Integrative Agriculture ›› 2016, Vol. 15 ›› Issue (7): 1480-1489.DOI: 10.1016/S2095-3119(15)61184-4

Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China

收稿日期:2015-07-01 出版日期:2016-07-06 发布日期:2016-07-06

Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China

LI Chao-su¹, LI Jin-gang², TANG Yong-lu¹, WU Xiao-li¹, WU Chun¹, HUANG Gang¹, ZENG Hui³

¹ Crop Research Institute, Sichuan Academy of Agricultural Sciences, Chengdu 610066, P.R.China
² College of Agriculture, Sichuan Agricultural University, Wenjiang 611130, P.R.China
³ Agricultural Bureau of Jianyang City, Jianyang 621700, P.R.China

Received:2015-07-01 Online:2016-07-06 Published:2016-07-06
Contact: TANG Yong-lu, Tel: +86-28-84504601, Fax: +86-28-84504230, E-mail: ttyycc88@163.com
Supported by:
This work was supported by the China Agriculture Research System (CARS-3) and the Public Welfare Industry (Agriculture) Scientific Research of China (200903010-06).

摘要/Abstract

Abstract: Good crop stand establishment and root system development are essential for optimum grain yield of dryland wheat (Triticum aestivum L.). At present, little is known about the effect of tillage and straw mulch on the root system of wheat under dryland areas in southwestern China. The aim of this study was to evaluate the effect of three tillage treatments (no-till, NT; rotary till, RT; conventional till, CT) and two crop residue management practices (straw mulch, ML; non-straw mulch, NML) on stand establishment, root growth and grain yield of wheat. NT resulted in lower soil cover thickness for the wheat seed, higher number of uncovered seeds, lower percentage of seedling-less ridges and lower tiller density compared to RT and CT; ML resulted in higher tiller density compared to NML. Straw mulching resulted in more soil water content and root length density (RLD) at most of the growth stages and soil depths. The maximum RLD, root surface area density and root dry matter density were obtained under NT. In the topmost 10 cm soil layer, higher RLD values were found under NT than those under RT and CT. There were no significant differences in the yield or yield components of wheat among the tillage treatments in 2011–2012, but NT resulted in a significant higher yield compared to RT and CT in 2012–2013. Grain yield was significantly higher in ML compared to in NML. A strong relationship was observed between the water-use efficiency and the grain yield. Both NT and ML proved beneficial for wheat in term of maintaining higher tiller density, better soil water status and root growth, leading to a higher grain yield and enhanced water-use efficiency, especially in a low rainfall year.

Key words: wheat , tillage , mulch , stand establishment , yield , Triticum aestivum

LI Chao-su, LI Jin-gang, TANG Yong-lu, WU Xiao-li, WU Chun, HUANG Gang, ZENG Hui. Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China[J]. Journal of Integrative Agriculture, 2016, 15(7): 1480-1489.

参考文献

Alvarez R, Steinbach H S. 2009. A review of the effects of tillage systems on some soil physical properties, water content, nitrate availability and crops yield in the Argentine Pampas. Soil Tillage Research, 104, 1–15.

Chakraborty S, Luck J, Hollaway G, Freeman A, Norton R, Garrett K A. 2008. Impacts of global change on diseases of agricultural crops and forest trees. CAB Reviews, 3, 054.

Dickin E, Wright D. 2008. The effects of winter waterlogging and summer drought on the growth and yield of winter wheat (Triticum aestivum L.). European Journal of Agronomy, 28, 234–244.

Fabrizzii K P, García F O, Costa J L, Picone L I. 2005. Soil water dynamics, physical properties and corn and wheat responses to minimum and no-tillage systems in the southern Pampas of Argentina. Soil & Tillage Research, 81, 57–69.

Gao Y J, Li S X. 2005. Cause and mechanism of crop yield reduction under straw mulch in dryland. Transactions of the CSAE, 21, 15–19.

Govaerts B, Fuentes M, Mezzalama M, Nicol J M, Deckers J, Etchevers J D, Figueroa-Sandoval B, Sayre K D. 2007. Infiltration, soil moisture, root rot and nematode populations after 12 years of different tillage, residue and crop rotation managements. Soil Tillage Research, 94, 209–219.

Govaerts B, Sayre K D, Deckers J. 2005. Stable high yields with zero tillage and permanent bed planting? Field Crops Research, 94, 33–42.

Han B, Li J Z, Wang Y, Ning T Y, Zheng Y H, Shi Z Q. 2007. Effects of soil tillage and returning straw to soil on wheat growth status and yield. Transactions of the CSAE, 23, 48–53.

Izumi Y, Uchida K, Iijima M. 2004. Crop production in successive wheat-soybean rotation with no-tillage practice in relation to the root system development. Plant Production Science, 7, 329–336.

Limon-Ortega A, Govaerts B, Deckers J, Savre K D. 2002. Soil attributes in a furrow-irrigated bed wheat-maize planting system after 12 years. Soil Tillage Research, 63, 123–132.

Lithourgidis A S, Dhima K V, Damalas C A, Vasilakoglou I B, Eleftherohorinos I G. 2006. Tillage effects on wheat emergence and yield at varying seeding rates, and on labor and fuel consumption. Crop Science, 46, 1187–1192.

Machado S, Petrie S, Rhinhart K, Qu A. 2007. Long-term continuous cropping in the Pacific Northwest: Tillage and fertilizer effects on winter wheat, spring wheat, and spring barley production. Soil Tillage Research, 94, 473–481.

Mart?nez E, Fuentes J P, Silva P, Valle S, Acevedo E. 2008. Soil physical properties and wheat root growth as affected by no-tillage and conventional tillage systems in a Mediterranean environment of Chile. Soil Tillage Research, 99, 232–244.

Merrill S D, Black A L, Bauer A. 1996. Conservation tillage affects root growth of dryland spring wheat under drought. Soil Science Society of America Journal, 60, 575–583.

Ministry of Agriculture. 2011. China Agriculture Statistical Report. China Agriculture Press, Beijing. (in Chinese)

Morris N L, Miller P C H, Orson J H, Froud-Williams R J. 2010. The adoption of non-inversion tillage systems in the United Kingdom and the agronomic impact on soil, crops and the environment - A review. Soil Tillage Research, 108, 1–15.

Muñoz-Romero V, Benítez-Vega J, López-Bellido L, López-Bellido R J. 2010. Monitoring wheat root development in a rainfed vertisol. Tillage effect. European Journal of Agronomy, 33, 182–187.

Qin R, Stamp P, Richner W. 2004. Impact of tillage on root systems of winter wheat. Agronomy Journal, 96, 1523–1530.

Tang Y L, Li C S, Wu C, Wu X L, Huang G, Ma X L. 2014. Effects of sowing patterns on establishment quality, grain yield and production benefit of intercropping wheat in hilly countries. Scientia Agricultura Sinica, 46, 5089–5097. (in Chinese)

Tang Y L, Wu X L, Li C S, Wu C, Ma X, Huang G. 2013. Long-term effect of year-round tillage patterns on yield and grain quality of wheat. Plant Production Science, 16, 365–373.

De Vita P, Paolo E D, Feccondo G, Fonzo N D, Pisante M. 2007. No-tillage and conventional tillage effects on durum wheat yield, grain quality and soil moisture content in southern Italy. Soil Tillage Research, 92, 69–78.

Wuest S B, Albrecht S L, Skirvin K W. 2000. Crop residue position and interference with wheat seedling development. Soil Tillage Research, 55, 175–182.

Xie R Z, Li S K, Li X J, Jing Y Z, Wang K R, Chu Z D, Gao S J. 2007. The analysis of conservation tillage in China - Conservation tillage and crop production: Reviewing the evidence. Scientia Agricultura Sinica, 40, 1914–1924. (in Chinese)

Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China

Stand establishment, root development and yield of winter wheat as affected by tillage and straw mulch in the water deficit hilly region of southwestern China

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