371. Effect of different irrigation quota and cycle under mulched drip irrigation on cotton growth and yield.

• Authors:
  • Wu, Z. G.
  • Hudan,T.
  • Yi, P. F.
  • Zhang, J.Z.
  • Wang, Y. M.
• Source: Xinjiang Agricultural Sciences
• Volume: 47
• Issue: 9
• Year: 2011
• Summary: Objective: This paper studied the effect of irrigation quota and application cycle on the growth of the cotton and its yield under the condition of mulched drip irrigation. Method: Different irrigation quota and cycles were designed. The soil moisture was monitored before and after the irrigation. The physiological index such as the budding amount and cotton height were measured at different stages of cotton growth. Result: The study shows that cotton's height is unsusceptible to the irrigation cycle in a state of low irrigation quota. With the irrigation quota increasing, the cotton's height is higher and higher; when the irrigation quota is certain, with the irrigation cycle increasing, the cotton's height is decreasing. When the irrigation quota is 3300 m 3/hm 2 and the irrigation cycle is 8d, the number of the bolls are the most, it is helpful for improving the cotton's production; when the irrigation cycle is 10d, the bolls are the fewest. Conclusion: When the irrigation quota is 5100 m 3/hm 2 and the irrigation cycle is 10d, it's helpful for the cotton's buds to appear early. When the irrigation quota is 4688 m 3/hm 2 and the irrigation cycle is 8d, the production is the highest and the comprehensive benefits is the most.

372. Influence irrigation by salt-water of and fresh-water on cotton yield and fiber quality.

• Authors:
  • Zhang, Y.
  • Wang, Q.
  • Zhang, J. S.
  • Yang, P. N.
  • Wei, H. G.
• Source: Xinjiang Agricultural Sciences
• Volume: 47
• Issue: 12
• Year: 2011
• Summary: Objective: In order to discuss the effect of gentle salt-water irrigation on yield of cotton and its quality, a field experiment was conducted at the national irrigation experiment station of Kuerle city in 2008. The research has studied the effect of gentle salt-water alternated with fresh-water irrigation on cotton yield and yield component. Method: This experiment was carried out to use different gentle salt-water rate and different fresh-water rate to find out an appropriate amount of irrigation. Result: The results showed that the cotton yield and its fiber quality can be improved by gentle salt-water alternated with fresh-water irrigation of 3 g/L of mineralized degree in the south Xinjiang. Salt which was carried into soil could be rush into a deep layer of the soil profile by fresh-water irrigation and winter irrigation, and the total salinity of the soil generally kept its balance. Conclusion: By analyzing the tested index of every cotton growth stage, it was found out when gentle salt-water irrigation rate was 2 250 m 3/hm 2 and the fresh-water irrigation rate was 1 500 m 3/hm 2, cotton yield was higher.

373. A review of huanglongbing (Citrus greening) management in Citrus using nutritional approaches in China.

• Authors:
  • Chen, J. C.
  • Baez, I.
  • Takeuchi, Y.
  • Sequeira, R. A.
  • Ouyang, G. C.
  • Xia, Y. L.
• Source: Plant Health Progress - Peer-Reviewed Journal of Appied Plant Health
• Issue: October
• Year: 2011
• Summary: The Asian form of huanglongbing (HLB) is caused by ' Candidatus Liberibacter asiaticus (Las),' a phloem-limited bacterium transmitted by the Asian citrus psyllid, Diaphorina citri Kuwayama. Nutrient management, together with other cultural practices such as pruning and irrigation, for mitigation of the disease has been practiced in China for many years. Our literature review, field survey, and interviews with Chinese scientists and growers indicate that these cultural practices were generally ineffective for the disease management. However, a nutritional approach in conjunction with other cultural practices such as irrigation can maintain grove productivity for a certain time depending on the type of citrus species/cultivars, the age of the trees, the propagation method of the plants, the Asian citrus psyllid (ACP) ( Diaphorina citri Kuwayama) population, and other factors. Symptomatic mature pommelo ( Citrus maxima Merr) and sweet orange ( C. sinensis L. Osbeck) plants can commonly survive and maintain a certain level of productivity for an additional 4 to 5 years, even longer assuming vigorous ACP control.

374. Evaluation of drought tolerance in potato germplasm.

• Authors:
  • Jin, L. P.
  • Pang, W. F.
  • Duan, S. G.
  • Bian, C. S.
  • Liu, J.
  • Xu, J. F.
• Source: Chinese Potato Journal
• Volume: 25
• Issue: 1
• Year: 2011
• Summary: Drought stress (DS) is considered to be one of main constraints of potato ( Solanum tuberosum) production. A pot trial with a total of 42 potato varieties was conducted in a rain-proofed shed in Hebei, China, to evaluate their drought tolerance (DT) under two water regimes (well irrigated and DS). Under DS conditions, some varieties, such as Hutou, Gaoyuan 7, CE 66 and HS 66, showed good DT. Gaoyuan 7 and Hutou maintained higher tuber yield even under the DS, and so they could be applied for the DT breeding. Plant height was sensitive to drought, but the drought had less effect on plant height of the varieties with strong DT. Drought conditions induced an increase in the tuber number of varieties with strong DT, and a decrease in the number of varieties with weak DT. The specific gravity of tubers was insignificantly affected by the drought. The ratio of variable to maximum chlorophyll fluorescence (Fv/Fm) changed insignificantly under DS, but the effective quantum yield (qY) of leaves decreased sharply.

375. Change of cotton canopy characteristics resulted from intensive water and nitrogen regulation under film drip irrigation.

• Authors:
  • Niu, X. X.
  • Wang, B.
  • Ma, X. W.
  • Xue, X. R.
  • Yao, Q. Q.
  • Chen, B. Y.
  • Yang, T.
• Source: Xinjiang Agricultural Sciences
• Volume: 48
• Issue: 5
• Year: 2011
• Summary: Objective: To improve cotton planting technology according to cotton canopy characteristics. Method: Adopt the way, in film with drip irrigation relatively high and low two irrigation quantities, design such 5 different nitrogen strategy plan, completely combination of 10 treatments, determine and analyze the 10 with cotton canopy characteristic and yield growth the variation characteristics. Result: Whether irrigation level is high or low, LAI value and K value each of them with "behind the front less" application of N fertilizer was significantly higher in the bud stage; In the bloom stage under the high irrigation, LAI value was significantly higher with "behind the front less" application of N fertilizer; in the Bud stage, bloom stage, boll stage under high irrigation, with "behind the front less "application of N fertilizer, LAI value was relatively fast increased, but the TC value and T value were decreased relatively quickly; in the bud stage, bloom stage, boll stage under low irrigation, MFIA value was decreased relatively quickly with "front behind much less" application of N fertilizer, but the K value was increased relatively quickly; when the irrigation is higher, the fine under the control of water and nitrogen yield with LAI value was positively related to change, LAI value and seed cotton yield each of them with "behind the front less application of N fertilizer was significantly higher. Conclusion: When the Irrigation is relatively high, the LAI of cotton in bud stage and bloom stage showed the highest value when using two top-dressing with the behind the front less" strategy of nitrogen, to the effect of LAI value, TC value, T value, K value, and yield in growth stage was stronger than that "front behind much less" strategy of nitrogen.

376. Study on the canopy structure and the yield of hybrid cotton at low-density in Xinjiang.

• Authors:
  • Zhang, Y. L.
  • Luo, H. H.
  • Hu, X. B.
  • Yang, M. S.
  • Feng, G. Y.
  • Cui, S. Q.
  • Yao, Y. D.
  • Zhang, W. F.
• Source: Xinjiang Agricultural Sciences
• Volume: 48
• Issue: 5
• Year: 2011
• Summary: Objective: The purpose of this program is explore the formation rule of the yield and the canopy structure of hybrid cotton at low density and with less seeds to seek high yield and efficiency. Method: Two hybrid cotton cultivars, xinluzao 43 and lumianyan 24, were grown under-mulch-drip irrigation to study various low-densities' influence on the canopy structure, photosynthetic characteristics and the yield of hybrid cotton. Result: The results showed that the lint yield of hybrid cotton reached 3 300 kg/hm 2 ultra-high levels at the density of 10. 5*10 4 plants/hm 2, through individual and group coordinated production advantage. The leaf area index LAI, canopy openness (DIFN) rising fast. The higher light absorption and the more photosynthesis products will be, which contributes to the dry matter production capacity and conversion rate, thus helping reach the purpose of increasing yield and efficiency. However, the yield of hybrid decreased less than 2 700 kg/hm 2 levels at the density of 45 000 plants/hm 2, decreased rage up to 18.1%-21.7%. Conclusion: The aim of saving cost, improving the yield and efficiency can be actualized by exerting individual potential and by relatively reducing the density of hybrid cotton.

377. Laboratory experiment on effects of different mulched drip irrigation conditions on cotton evapotranspiration.

• Authors:
  • Wang, J.
  • Li, X. M.
  • Liu, M. X.
  • Yang, J. S.
  • Yu, M.
• Source: Journal of Northwest A & F University (Natural Science Edition)
• Volume: 39
• Issue: 6
• Year: 2011
• Summary: Objective: The study was done to explore the effects of different mulched drip irrigation modes on cotton evapotranspiration, and to provide reference for design of technical parameters of drip irrigation and determination of irrigation schedule. Method: A laboratory simulation experiment was carried out to obtain the cotton evapotranspiration by weighing method, and then the effects of different emitter discharges (0.3, 0.8 L/h), irrigation water qualities (0.40, 2.47, 3.50 g/L), and irrigation amounts (321,386 mm) on cotton evapotranspiration were analyzed. Result: The cotton evapotranspiration under small emitter discharge (0.3 L/h) is higher than that under large emitter discharge (0.8 L/h) when the cotton is irrigated with sufficient fresh water. For the same irrigation amount and emitter discharge, the cotton evapotranspiration is almost the same under fresh water (0.40 g/L) and brackish water irrigation (2.47 g/L), which is obviously lower than the cotton evapotranspiration under saline water irrigation (3.50 g/L). For the same emitter discharge, the cotton with sufficient water supply has higher evapotranspiration than that with deficient water supply. Conclusion: The cotton evapotranspiration decreases with the increase of emitter discharge or mineralization degree of irrigation water, increases with the increase of irrigation amount. The blackish water irrigation with proper amount can not influence the cotton evapotranspiration significantly.

378. Spatial-temporal evolution and optimum development of cotton industry in Tarim basin.

• Authors:
  • Wang, C Y.
  • Zhang, X. H.
• Source: Journal of China Agricultural University
• Volume: 16
• Issue: 3
• Year: 2011
• Summary: Tarim basin is the most suitable area to plant cotton in China. During the past decades, the basin has been developed into one of the major areas in China to yield high quality cotton due to its prominent conditions of sunshine and heat. Based on data of 1949-2007 from cotton industry, the spatio-temporal evolution of cotton industry and some problems produced in the process of cotton area extension are analyzed in detail by using the method of development index. Advices to further promote cotton industry are put forward. Several outcomes of this studying are as follows: (1) The cotton industry in Tarim basin has been developed remarkably from 1949 to 2007. The phases of cotton industry were divided into three parts: slow-paced development, then rapid growth, and finally steadily progress. The trend of cotton industry progress has some specific characteristics by itself as well as some similar characteristics to other areas. (2) In the process of cotton industry development, the range of predominant cotton area in Tarim basin has shrunk in west part, expanded eastward and outspread northward. What's more, the cotton area in each county extends greatly. (3) Some problems such as water resource shortage, eco-environment deterioration, weak response of market has come into being in the process of extension of cotton cropland. Several advices of optimum distribution, moderate scale, saving water irrigation, ecological cultivation, building consummated service system are put forward based on the above problems.

379. Impact of changes of irrigation pattern on salt-water dynamics of soils in farmland and its shelterbelt in the irrigated zone in the lower reaches of Tarim River.

• Authors:
  • Zhang, P.
  • Yan, J. P.
  • Xu, H. L.
  • Zhao, X. F.
• Source: Acta Pedologica Sinica
• Volume: 48
• Issue: 6
• Year: 2011
• Summary: After comparative analysis of the distribution characteristics of soil water and salt in farmlands (3 cotton fields and 1 orchard) and their shelterbelts in drip irrigation prevailing Kalamiji Oasis in the lower reaches of Tarim River, Northwest China through comparative tests and field monitoring, effects of the current drip irrigation pattern on farmlands within forest networks and their shelterbelts and main factors affecting salt-water dynamics in the soil within the forest network were studied and analyzed with the following conclusions obtained. (1) In Kalamiji oasis, the groundwater table in the fields lowers at a rate of 0.5 m a -1 as a result of popularization of drip irrigation and varies seasonally; it is relatively shallow in non-irrigation season and relatively deep in irrigation season; and over 1 m deeper in the latter than in the former. (2) As the impact of drip irrigation on soil never goes deeper than 80 cm, the irrigation supplies little water, almost nil, to groundwater, while the roots of farmland shelterbelt have to go deep into the soil to absorb water, thus leading to significantly lower soil water content in the shelterbelt than in farmland ( p

380. Sectional distribution of alkaline-hydroluzale nitrogen of cotton field soil under different irrigation water supply in arid area.

• Authors:
  • Ma, X. W.
  • Liu, H.
  • Xu, Y. M.
  • Chen, B. Y.
  • Niu, X. X.
  • Wang, B.
  • Yang, T.
  • Zhu, J. R.
• Source: Xinjiang Agricultural Sciences
• Volume: 48
• Issue: 4
• Year: 2011
• Summary: Objective: To reveal how water affects fertilizer is important to make decision to regulate and control water and fertilizer use. Method: The paper described temporal-spatial character of soil N extracted by alkaline affected by different irrigation water usage in Awati County, Xinjiang. Result: Irrigation resulted in change of soil N content in depth from 0 cm to 100 cm obviously, especially from 0 cm to 40 cm; generally the more water irrigated, the more nitrogen dissolved and moved down. Conclusion: One reason that water promoted fertilizer use efficiency was to enlarge distribution area of nitrogen in soil profile, then more cotton roots could adsorb nutrients.