河南农业科学
河南農業科學
하남농업과학
JOURNAL OF HENAN AGRICULTURAL SCIENCES
2009年
7期
43-46
,共4页
冯素伟%李淦%胡铁柱%茹振钢%李笑慧%赵书义
馮素偉%李淦%鬍鐵柱%茹振鋼%李笑慧%趙書義
풍소위%리감%호철주%여진강%리소혜%조서의
小麦%百农矮抗58%干物质积累%分配
小麥%百農矮抗58%榦物質積纍%分配
소맥%백농왜항58%간물질적루%분배
Wheat%BN AK-58%Dry-matter accumulation%Distribution
以百农矮抗58为材料,研究了其花后干物质积累与分配规律,结果显示:不同肥力水平下,百农矮抗58籽粒干物质积累基本呈直线上升,地上部分干物质积累成S形曲线增加,籽粒干物质积累速度与地上干物质积累速度成正相关.地上各部分干物质的移动率和对籽粒的贡献率不同,移动率从大到小依次为叶、茎、鞘.运转率由大到小依次为茎、叶、鞘.在高肥 (A)、超高肥 (C)水平条件下, 降低氮肥施入能够增加各自籽粒干物质重量. 在极高肥 (C)条件下, 籽粒干物质与地上部分干物质积累于花后40d均明显下降, 减施K肥影响干物质移动率和运转率. 在高肥-超高肥力水平范围内, 施肥对地上部分和籽粒干物质积累有明显促进作用, 干物质积累量随着肥力的升高而增多. 超高肥标准施肥水平 (C1) 为充分挖掘百农矮抗58产量潜力的最优施肥处理.
以百農矮抗58為材料,研究瞭其花後榦物質積纍與分配規律,結果顯示:不同肥力水平下,百農矮抗58籽粒榦物質積纍基本呈直線上升,地上部分榦物質積纍成S形麯線增加,籽粒榦物質積纍速度與地上榦物質積纍速度成正相關.地上各部分榦物質的移動率和對籽粒的貢獻率不同,移動率從大到小依次為葉、莖、鞘.運轉率由大到小依次為莖、葉、鞘.在高肥 (A)、超高肥 (C)水平條件下, 降低氮肥施入能夠增加各自籽粒榦物質重量. 在極高肥 (C)條件下, 籽粒榦物質與地上部分榦物質積纍于花後40d均明顯下降, 減施K肥影響榦物質移動率和運轉率. 在高肥-超高肥力水平範圍內, 施肥對地上部分和籽粒榦物質積纍有明顯促進作用, 榦物質積纍量隨著肥力的升高而增多. 超高肥標準施肥水平 (C1) 為充分挖掘百農矮抗58產量潛力的最優施肥處理.
이백농왜항58위재료,연구료기화후간물질적루여분배규률,결과현시:불동비력수평하,백농왜항58자립간물질적루기본정직선상승,지상부분간물질적루성S형곡선증가,자립간물질적루속도여지상간물질적루속도성정상관.지상각부분간물질적이동솔화대자립적공헌솔불동,이동솔종대도소의차위협、경、초.운전솔유대도소의차위경、협、초.재고비 (A)、초고비 (C)수평조건하, 강저담비시입능구증가각자자립간물질중량. 재겁고비 (C)조건하, 자립간물질여지상부분간물질적루우화후40d균명현하강, 감시K비영향간물질이동솔화운전솔. 재고비-초고비력수평범위내, 시비대지상부분화자립간물질적루유명현촉진작용, 간물질적루량수착비력적승고이증다. 초고비표준시비수평 (C1) 위충분알굴백농왜항58산량잠력적최우시비처리.
Wheat cultivar BN AK-58 was used to study the laws of dry-matter accumulation and allocation. The results showed that dry matter accumulation of grain presented a linear upward trend basically. The dry-matter accumulation of above-ground part presented an S-type curve. There was positive correlation between dry matter accumulation of grain and above-ground part. The transport rate and contribution rate to seed of each organ above ground were different, the order of transport being leaf > stem > sheath and the order of dry-matter accumulation being stem> leaf> sheath. The decrease of nitrogen amount could increase the dry-matter weight of grain for fertilizer treatment A and B. For treatment C, the dry-matter accumulation of above ground part and grain decreased distinctly after 40th days of flowering, so its economic yield and biological yield were lower than other two treatments. In the yield level of A to B, fertilization had significant effects on dry-matter accumulation of above-ground part and grain. The dry-matter accumulation increased with increasing soil fertility. The fertilizer application treatment C1 was the best for fully exploiting the yield potentiality of BN AK-58.