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庄浪县川旱区耐密型玉米新品种引种初报 被引量:4
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作者 杨春旺 《甘肃农业科技》 2017年第6期53-55,共3页
在庄浪县川旱地全膜双垄沟播栽培条件下,以先玉335为对照,对引进的5个耐密型玉米新品种进行了试验。结果表明,锦华150综合经济性状优良,抗旱性强,折合产量为11 902.95 kg/hm^2,较当地主栽品种先玉335增产23.25%,可作为主栽品种在试区推... 在庄浪县川旱地全膜双垄沟播栽培条件下,以先玉335为对照,对引进的5个耐密型玉米新品种进行了试验。结果表明,锦华150综合经济性状优良,抗旱性强,折合产量为11 902.95 kg/hm^2,较当地主栽品种先玉335增产23.25%,可作为主栽品种在试区推广种植;农华101生育期适中,经济性状好,抗旱性强,折合产量10 404.56 kg/hm^2,较当地主栽品种先玉335增产0.49%,可在试区示范种植;先玉335经济性状好,抗旱性强,折合产量为10 354.05 kg/hm^2,可继续种植。 展开更多
关键词 玉米 引种 试验 川旱区 庄浪县
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川中丘陵旱区小麦覆盖栽培技术研究 被引量:7
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作者 刘定辉 赵燮京 +1 位作者 庞良玉 张建华 《西南农业学报》 CSCD 2002年第4期44-49,共6页
小麦不同覆盖方式及不同土壤厚度覆盖效果的研究结果表明:①覆盖栽培具有显著的节水抗旱作用,增产率在20%以上,干旱年高达30%~40%,是川中丘陵旱地小麦高产稳产的重要技术措施。②覆盖不仅能保持水分,而且改变了水分在土壤中的移动规律... 小麦不同覆盖方式及不同土壤厚度覆盖效果的研究结果表明:①覆盖栽培具有显著的节水抗旱作用,增产率在20%以上,干旱年高达30%~40%,是川中丘陵旱地小麦高产稳产的重要技术措施。②覆盖不仅能保持水分,而且改变了水分在土壤中的移动规律,水汽上升至膜下受阻凝聚使土壤表层水分相对稳定和丰富,促进作物对土壤深层水分的利用,提高了水分的利用率。③不同覆盖方式各有优劣。因小麦遭遇干旱的情况不同,则不同覆盖方式增产的能力和主要原因也不一样:小麦整个生育期或中前期受旱,增产的主要原因表现为有效穗的增加和千粒重的提高,增产的能力从大到小依次为全膜、侧膜和稻草覆盖;若小麦中后期受旱,则增产的主要原因表现为有效穗和穗着粒数的增加,增产能力依次为稻草、全膜和侧膜覆盖。④从不同土壤厚度全膜覆盖效果及效益分析表明,特大干旱年土壤厚度在80cm以上,一般干旱年在60cm以上,雨水较好年份在40cm左右均可发挥覆盖的作用,取得理想产量,增产增收。 展开更多
关键词 中丘陵旱区 小麦 覆盖栽培技术
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川中丘陵旱区西瓜丰产综合栽培技术
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作者 江国良 凌志刚 +2 位作者 刘光惠 张红非 罗楠 《中国西瓜甜瓜》 1997年第2期23-25,共3页
以往,由于川中丘陵旱区的西瓜品种选择不当,加之栽培技术落后,以及不利的气候和土壤条件的影响,西瓜产量和效益都不高。为促进该区的西瓜生产,增加瓜农收入,我们于1990~1995年进行了试验研究,总结出一套适合川中丘陵旱区西瓜高产、优... 以往,由于川中丘陵旱区的西瓜品种选择不当,加之栽培技术落后,以及不利的气候和土壤条件的影响,西瓜产量和效益都不高。为促进该区的西瓜生产,增加瓜农收入,我们于1990~1995年进行了试验研究,总结出一套适合川中丘陵旱区西瓜高产、优质的栽培技术。其特点是以良种、良法为中心。 展开更多
关键词 西瓜 丰产 栽培 中丘陵旱区
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川西北旱区稻田改制新模式“麦/玉──稻”三熟试验示范成功
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作者 胡学爱 谢明逸 +1 位作者 林昌明 李国福 《四川农业科技》 2000年第1期18-18,共1页
关键词 西北旱区 三熟 试验
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Response of runoff to change of atmospheric 0℃ level height in summer in arid region of Northwest China 被引量:9
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作者 CHEN ZhongSheng CHEN YaNing LI WeiHong 《Science China Earth Sciences》 SCIE EI CAS 2012年第9期1533-1544,共12页
Based on the daily observed data from eight sounding stations and the daily mountain runoff data from nine rivers in summer from 1960 to 2009 in four typical study areas located in arid region of Northwest China(ARNC)... Based on the daily observed data from eight sounding stations and the daily mountain runoff data from nine rivers in summer from 1960 to 2009 in four typical study areas located in arid region of Northwest China(ARNC),the change trends,abrupt change points,and their significance of runoff and 0℃ level height(FLH) were analyzed in ARNC in the last 50 years by using Mann-Kendall(MK) nonparametric test,and the quantitative relationship between runoff and FLH in summer was also analyzed with the linear regression and elastic coefficient methods.The results are indicated as follows:(1) in recent 50 years,there is a similar changing trend between the summer runoff and FLH in ARNC and each region has its own unique feature.The summer runoff has been significantly ascending in the Tianshan Mountains and on the northern slope of the Qilian Mountains(NSQM) compared to that of the northern slope of the Kunlun Mountains(NSKM).Likewise,the FLH has been taking on a markedly rising trend on the northern slopes of the Tianshan and Qilian Mountains(NSTM and NSQM) in comparison with the southern slope of the Tianshan Mountains(SSTM).However,the FLH on NSKM has been decreasing with the speed of 2.33 m every year.(2) Abrupt change analysis indicates that the period of abrupt change happened for summer runoff and FLH is totally different among the four typical study regions,and even in same region.(3) There is a positive significant relation between the summer runoff and FLH in ARNC(NSQM P <0.05;other three regions P <0.01).Therefore,the ascending and descending of the summer FLH is a vital factor inducing the change of summer runoff in ARNC.(4) The elastic coefficient of summer runoff to the change of summer FLH on NSKM,NSTM,NSQM,and SSTM are 7.19,3.80,2.79,and 6.63,respectively,which indicates that there exists the regional difference in the sensibility of summer runoff to the change of summer FLH in ARNC.The distinct proportion of glacial meltwater runoff is an important cause resulting in the regional difference of sensibility. 展开更多
关键词 RUNOFF 0℃ level height elastic coefficient regional difference arid region of Northwest China
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