农业工程学报
農業工程學報
농업공정학보
2014年
21期
81-90
,共10页
白伟%孙占祥%郑家明%郝卫平%刘勤%刘洋%冯良山%蔡倩
白偉%孫佔祥%鄭傢明%郝衛平%劉勤%劉洋%馮良山%蔡倩
백위%손점상%정가명%학위평%류근%류양%풍량산%채천
土壤%收获%农作物%春玉米%产量%水分利用效率
土壤%收穫%農作物%春玉米%產量%水分利用效率
토양%수획%농작물%춘옥미%산량%수분이용효솔
soils%harvesting%crops%spring maize%yield%water use efficiency
为了探明耕层构造对春玉米产量及水分利用效率的影响,在农业部阜新农业环境与耕地保育科学观测实验站利用长期定位试验,设置了虚实并存耕层(furrow loose and ridge compaction plough layer,FLRC)、全虚耕层(all loose plough layer,AL)、全实耕层(all compaction plough layer,AC)、以及作为对照(controlled trial,CK)的上虚下实耕层(up loose and down compaction plough layer,ULDC)4种耕层结构,研究了不同耕层构造对春玉米产量及水分利用效率的影响。利用2011和2012年数据分析结果表明,不同耕层构造对春玉米产量影响显著(P<0.05),2a平均表现为FLRC>AL>ULDC>AC,FLRC和AL比CK分别增加16.39%、5.30%,收获指数在0.38~0.44之间。在平水年(2011)和丰水年(2012)虚实并存耕层和全虚耕层均可有效蓄积降水,改善土壤水分状况,明显提高玉米的降水利用效率,2011年FLRC比ULDC提高11.95%(P<0.05);2012年FLRC和AL分别比CK提高21.23%(P<0.05)和12.43%(P<0.05);不同降雨年型和不同耕层结构对作物水分利用效率(water use efficiency, WUE)影响不同,2011年FLRC比CK增加15.68%(P<0.05),2012年FLRC比CK增加23.13%(P<0.05),2a平均提高18.43%。综合分析认为,虚实并存耕层是提高土地生产力和农田水分利用效率的最优耕层结构。该研究为辽西旱作农业区合理耕层构建、确定适宜的耕作技术和实现作物的高产稳产提供参考。
為瞭探明耕層構造對春玉米產量及水分利用效率的影響,在農業部阜新農業環境與耕地保育科學觀測實驗站利用長期定位試驗,設置瞭虛實併存耕層(furrow loose and ridge compaction plough layer,FLRC)、全虛耕層(all loose plough layer,AL)、全實耕層(all compaction plough layer,AC)、以及作為對照(controlled trial,CK)的上虛下實耕層(up loose and down compaction plough layer,ULDC)4種耕層結構,研究瞭不同耕層構造對春玉米產量及水分利用效率的影響。利用2011和2012年數據分析結果錶明,不同耕層構造對春玉米產量影響顯著(P<0.05),2a平均錶現為FLRC>AL>ULDC>AC,FLRC和AL比CK分彆增加16.39%、5.30%,收穫指數在0.38~0.44之間。在平水年(2011)和豐水年(2012)虛實併存耕層和全虛耕層均可有效蓄積降水,改善土壤水分狀況,明顯提高玉米的降水利用效率,2011年FLRC比ULDC提高11.95%(P<0.05);2012年FLRC和AL分彆比CK提高21.23%(P<0.05)和12.43%(P<0.05);不同降雨年型和不同耕層結構對作物水分利用效率(water use efficiency, WUE)影響不同,2011年FLRC比CK增加15.68%(P<0.05),2012年FLRC比CK增加23.13%(P<0.05),2a平均提高18.43%。綜閤分析認為,虛實併存耕層是提高土地生產力和農田水分利用效率的最優耕層結構。該研究為遼西旱作農業區閤理耕層構建、確定適宜的耕作技術和實現作物的高產穩產提供參攷。
위료탐명경층구조대춘옥미산량급수분이용효솔적영향,재농업부부신농업배경여경지보육과학관측실험참이용장기정위시험,설치료허실병존경층(furrow loose and ridge compaction plough layer,FLRC)、전허경층(all loose plough layer,AL)、전실경층(all compaction plough layer,AC)、이급작위대조(controlled trial,CK)적상허하실경층(up loose and down compaction plough layer,ULDC)4충경층결구,연구료불동경층구조대춘옥미산량급수분이용효솔적영향。이용2011화2012년수거분석결과표명,불동경층구조대춘옥미산량영향현저(P<0.05),2a평균표현위FLRC>AL>ULDC>AC,FLRC화AL비CK분별증가16.39%、5.30%,수획지수재0.38~0.44지간。재평수년(2011)화봉수년(2012)허실병존경층화전허경층균가유효축적강수,개선토양수분상황,명현제고옥미적강수이용효솔,2011년FLRC비ULDC제고11.95%(P<0.05);2012년FLRC화AL분별비CK제고21.23%(P<0.05)화12.43%(P<0.05);불동강우년형화불동경층결구대작물수분이용효솔(water use efficiency, WUE)영향불동,2011년FLRC비CK증가15.68%(P<0.05),2012년FLRC비CK증가23.13%(P<0.05),2a평균제고18.43%。종합분석인위,허실병존경층시제고토지생산력화농전수분이용효솔적최우경층결구。해연구위료서한작농업구합리경층구건、학정괄의적경작기술화실현작물적고산은산제공삼고。
Plough layer construction is regarded as one of important methods for solving rainfed farmland problems. In order to explore the effect of plough layer construction on crop yield and water use efficiency (WUE) of spring maize, four tillage methods, including up loose and down compaction plough layer (ULDC, CK), all loose plough layer (AL), furrow loose and ridge compaction plough layer (FLRC) and all compaction plough layer (AC), were carried out in a long-term experimental station of Fuxin. The result showed that the yield of spring maize was significantly influenced by different plough layer constructions. For the years of 2011 and 2012, the maize yield under FLRC was the highest, followed by those under AL and CK;the yield under AC was the lowest. The average maize yield of the two years under FLRC was 16.39%higher than that under CK, and the yield under AL was 5.30%higher than that under CK, which were contributed by the increase in hundred kernel weight;the yield under AC was 5.73%lower than that under CK. The above-ground biomass (AGB) of maize and the harvest index were also examined. The result showed a significant impact of different plough layer constructions on AGB and harvest index of the maize. The FLRC treatment in 2011 was significant different from the others (P<0.05), while the difference between the treatments of AL and CK was not significant (P>0.05). The yield under FLRC was 7.18%, 7.19% and 12.87% higher than those under AL, CK and AC, respectively. The yield under FLRC in 2011 was generally consistent with that in 2012, without significant difference (P>0.05). The harvest indices for the four treatments ranged from 0.38 to 0.44. The findings also showed that soil moisture contents under of FLRC and AL were higher than those under AC and CK. The soil water storage (0-100 cm) under the four treatments (FLRC, AL, CK and AC) were 247.36, 248.97, 242.84 and 239.48 mm, respectively, indicating that FLRC and AL could efficiently loose soil, increase water penetration and soil water storage, and improve soil moisture contents significantly. For both normal year (2011) and wet year (2012), the soil under FLRC could utilize precipitation of growing season effectively, and promote precipitation use efficiency of maize. An 11.95%increase of rainfall use efficiency was observed under FLRC than that under CK in 2011;FLRC and AL showed the increases of 21.23%and 12.43%of rainfall use efficiency comparing to CK in 2012, respectively. WUE of the crops differed in different years and plough layer constructions. In 2011, a 15.68%increase in WUE was observed under FLRC comparing to that under CK, the similar trend was also appeared in 2012, a 23.13%increase for CK in WUE. Averaging the result of two year, an 18.43%increase in WUE was observed comparing to that of CK. Consequently, furrow loose and ridge compaction plough layer was an efficient construction for improving production and WUE of cropland in semi-arid zone of northeastern China.