玉米科学
玉米科學
옥미과학
JOURNAL OF MAIZE SCIENCES
2013年
6期
68-72
,共5页
乐章燕%刘晶淼%廖荣伟%白月明%安顺清%关昊
樂章燕%劉晶淼%廖榮偉%白月明%安順清%關昊
악장연%류정묘%료영위%백월명%안순청%관호
玉米根系%方形整段标本法%根系粗度%土壤水分%地表温度
玉米根繫%方形整段標本法%根繫粗度%土壤水分%地錶溫度
옥미근계%방형정단표본법%근계조도%토양수분%지표온도
Corn root%Quadrate monolith method%Root thickness%Soil moisture%Soil temperature
采用方形整段标本法,对河北省保定市固城镇中国气象局农业试验基地玉米(屯玉46)不同生育期的根系进行监测,同时对土壤水分、地温进行分析,研究土壤湿度、温度对玉米根系生长发育的影响。结果表明,拔节期和完熟期的根长密度在10~20 cm土层最大,分别为0.49 cm/cm3和1.98 cm/cm3,分别占0~100 cm土层总根长密度的49%和28%;抽雄期和乳熟期则是0~10 cm土层最大,分别为0.45 cm/cm3和1.17 cm/cm3,分别占0~100 cm土层总根长密度的34%和22%。对于土壤水分,50 cm土层以上,不同时期基本保持较为平缓的变化趋势,拔节期和抽雄期40~50 cm土层的水分为整层最大,分别可达18.84%和17.83%;乳熟期和完熟期为50~60 cm土层的水分最大,分别可达22.7%和22.0%。50 cm土层以上,不同生育期玉米根长密度的垂直分布均为向下递减;50 cm土层以下,乳熟期和完熟期的根长密度与土壤水分具有较为一致的变化趋势,水分较多的层次对应的根长密度较大,根系量较多。在土壤剖面中,不同生育期玉米根长密度增长量变化的垂直分布与土壤水分变化的垂直分布较为一致,无偏相关系数分别为0.38、0.9和0.7。地温越高,玉米侧根越细,温度对根系生长发育和生理活性产生一定影响。
採用方形整段標本法,對河北省保定市固城鎮中國氣象跼農業試驗基地玉米(屯玉46)不同生育期的根繫進行鑑測,同時對土壤水分、地溫進行分析,研究土壤濕度、溫度對玉米根繫生長髮育的影響。結果錶明,拔節期和完熟期的根長密度在10~20 cm土層最大,分彆為0.49 cm/cm3和1.98 cm/cm3,分彆佔0~100 cm土層總根長密度的49%和28%;抽雄期和乳熟期則是0~10 cm土層最大,分彆為0.45 cm/cm3和1.17 cm/cm3,分彆佔0~100 cm土層總根長密度的34%和22%。對于土壤水分,50 cm土層以上,不同時期基本保持較為平緩的變化趨勢,拔節期和抽雄期40~50 cm土層的水分為整層最大,分彆可達18.84%和17.83%;乳熟期和完熟期為50~60 cm土層的水分最大,分彆可達22.7%和22.0%。50 cm土層以上,不同生育期玉米根長密度的垂直分佈均為嚮下遞減;50 cm土層以下,乳熟期和完熟期的根長密度與土壤水分具有較為一緻的變化趨勢,水分較多的層次對應的根長密度較大,根繫量較多。在土壤剖麵中,不同生育期玉米根長密度增長量變化的垂直分佈與土壤水分變化的垂直分佈較為一緻,無偏相關繫數分彆為0.38、0.9和0.7。地溫越高,玉米側根越細,溫度對根繫生長髮育和生理活性產生一定影響。
채용방형정단표본법,대하북성보정시고성진중국기상국농업시험기지옥미(둔옥46)불동생육기적근계진행감측,동시대토양수분、지온진행분석,연구토양습도、온도대옥미근계생장발육적영향。결과표명,발절기화완숙기적근장밀도재10~20 cm토층최대,분별위0.49 cm/cm3화1.98 cm/cm3,분별점0~100 cm토층총근장밀도적49%화28%;추웅기화유숙기칙시0~10 cm토층최대,분별위0.45 cm/cm3화1.17 cm/cm3,분별점0~100 cm토층총근장밀도적34%화22%。대우토양수분,50 cm토층이상,불동시기기본보지교위평완적변화추세,발절기화추웅기40~50 cm토층적수분위정층최대,분별가체18.84%화17.83%;유숙기화완숙기위50~60 cm토층적수분최대,분별가체22.7%화22.0%。50 cm토층이상,불동생육기옥미근장밀도적수직분포균위향하체감;50 cm토층이하,유숙기화완숙기적근장밀도여토양수분구유교위일치적변화추세,수분교다적층차대응적근장밀도교대,근계량교다。재토양부면중,불동생육기옥미근장밀도증장량변화적수직분포여토양수분변화적수직분포교위일치,무편상관계수분별위0.38、0.9화0.7。지온월고,옥미측근월세,온도대근계생장발육화생리활성산생일정영향。
In order to investigate the effect of temperature and moisture on corn root growth and development, ex-perimental field located in the large root monitoring system of Gucheng agrometeorological station, the application of minirhizotron in monitoring of the growth dynamics at milky stage and full ripe of“Tunyu46”corn root was studied, and the soil moisture and temperature were also analyzed. The results showed that: at the jointing stage, small bell mouth stage, milky stage and full ripe stage, the maximum root densities of soil layer were 34%, 22% and 28% of 100 cm soil layer, respectively. Meanwhile the maximum soil mositure was 18.8%, 17.8%and 22%of the whole total layer, respectively.The root system decrease in different development periods at 0-50 cm soil layer. Under the 50 cm soil layer, the variation trends of the root density was consistent with soil moisture at milky stage and mature stage, the root density was greater, and the root system grew faster at the more soil moisture layer. The differences of root density and soil moisture distribution trend in soil profiles were basically consistent in different development periods, and no partial correlation coefficient were 0.38, 0.9, and 0.7, respectively, The temperature affected the root growth and physiological activity.