江苏农业学报
江囌農業學報
강소농업학보
JIANGSU JOURNAL OF AGRICULTURAL SCIENCES
2015年
4期
786-791
,共6页
陈留根%刘红江%沈明星%郑建初
陳留根%劉紅江%瀋明星%鄭建初
진류근%류홍강%침명성%정건초
不同播种方式%小麦%干物质累积量%产量形成
不同播種方式%小麥%榦物質纍積量%產量形成
불동파충방식%소맥%간물질루적량%산량형성
seeding mode%wheat%dry matter ac-cumulation%grain yield
大田试验,设置人工撒播、条播、穴播等3个处理,研究不同播种方式对扬麦19产量形成的影响。结果表明:小麦不同生育时期单位面积茎蘖数撒播最大,条播其次,穴播最小。不同播种方式小麦的最高分蘖数撒播最大,穴播最小,小麦的茎蘖成穗率撒播要明显小于条播和穴播。不同播种方式小麦叶面积指数,在小麦生育前期,撒播小麦叶面积指数较大,到生育中后期条播小麦较大。不同播种方式小麦产量,条播小麦的产量最高,单位面积产量分别比撒播和穴播增加3.0%和9.1%。条播使小麦产量增加,主要是因为条播显著增加了小麦的穗粒数,千粒质量对条播小麦产量增加的作用相对较小。在小麦生育前期,撒播小麦干物质积累较大,到生育中后期条播小麦较大。经济系数,条播小麦略低于撒播小麦和穴播小麦,处理间差异不明显。总体而言,生育前期撒播小麦茎蘖发生快,叶面积指数高,群体相对较大;生育中后期条播小麦群体结构更加合理,生长速度加快,叶面积指数较高,干物质累积量大,最终产量显著增加。
大田試驗,設置人工撒播、條播、穴播等3箇處理,研究不同播種方式對颺麥19產量形成的影響。結果錶明:小麥不同生育時期單位麵積莖蘗數撒播最大,條播其次,穴播最小。不同播種方式小麥的最高分蘗數撒播最大,穴播最小,小麥的莖蘗成穗率撒播要明顯小于條播和穴播。不同播種方式小麥葉麵積指數,在小麥生育前期,撒播小麥葉麵積指數較大,到生育中後期條播小麥較大。不同播種方式小麥產量,條播小麥的產量最高,單位麵積產量分彆比撒播和穴播增加3.0%和9.1%。條播使小麥產量增加,主要是因為條播顯著增加瞭小麥的穗粒數,韆粒質量對條播小麥產量增加的作用相對較小。在小麥生育前期,撒播小麥榦物質積纍較大,到生育中後期條播小麥較大。經濟繫數,條播小麥略低于撒播小麥和穴播小麥,處理間差異不明顯。總體而言,生育前期撒播小麥莖蘗髮生快,葉麵積指數高,群體相對較大;生育中後期條播小麥群體結構更加閤理,生長速度加快,葉麵積指數較高,榦物質纍積量大,最終產量顯著增加。
대전시험,설치인공살파、조파、혈파등3개처리,연구불동파충방식대양맥19산량형성적영향。결과표명:소맥불동생육시기단위면적경얼수살파최대,조파기차,혈파최소。불동파충방식소맥적최고분얼수살파최대,혈파최소,소맥적경얼성수솔살파요명현소우조파화혈파。불동파충방식소맥협면적지수,재소맥생육전기,살파소맥협면적지수교대,도생육중후기조파소맥교대。불동파충방식소맥산량,조파소맥적산량최고,단위면적산량분별비살파화혈파증가3.0%화9.1%。조파사소맥산량증가,주요시인위조파현저증가료소맥적수립수,천립질량대조파소맥산량증가적작용상대교소。재소맥생육전기,살파소맥간물질적루교대,도생육중후기조파소맥교대。경제계수,조파소맥략저우살파소맥화혈파소맥,처리간차이불명현。총체이언,생육전기살파소맥경얼발생쾌,협면적지수고,군체상대교대;생육중후기조파소맥군체결구경가합리,생장속도가쾌,협면적지수교고,간물질루적량대,최종산량현저증가。
A field experiment was conducted on Yangmai 19 to investigate the effects of broadcast seeding, row see-ding and bunch seeding on grain yield in wheat. The results showed that Maximum stem and tiller number per unit area was observed in wheat with broadcast seeding, and the minimum, in wheat with bunch seeding. Among different planting meth-ods, broadcast seeding was the best for reaching the highest tiller number, but the worst for ear-bearing. Broadcast seeding presented larger leaf area index at early growth stages whereas row seeding took a lead at middle to late stages. Compared with broadcast seeding and bunch seeding, row seeding increased the grain yield by 3. 0% and 9. 1%, respectively, by increasing spikelet number per panicle rather than 1 000-grain weight. Broadcast seeding improved dry matter weight at early growth sta-ges, and row seeding took its place at late stages. There was no significant difference in the economic index among three treat-ments. In sum, broadcast-seeded wheat developed quickly at early growth stages, resulting in larger leaf area and bigger pop-ulation. However, at late stages, row-seeded wheat, showed more reasonable population configuration was leading to faster growth speed and higher grain yield at maturity.