不同育秧方式对连作晚稻超秧龄机插质量的影响

以甬优538、甬优9号为供试材料,研究了轻多效唑水育秧(T1)、重多效唑水育秧(T2)和轻多效唑旱育秧(T3)三种育秧方式对水稻超秧龄机插的影响。结果表明,与T1处理相比,T2、T3处理的苗高、生物量受到抑制,成秧率变高,漏秧率降低,基本苗数增加;机插后2个品种的抽穗期均推迟,甬优538 T2、T3处理的产量高于T1处理,甬优9号T2、T3处理的产量低于T1处理。     

内蒙古甜菜制糖产业发展探析

内蒙古自治区从1955年包头糖厂建成投产开始,已成为我国重要的甜菜制糖产业基地。近年来内蒙古甜菜制糖产业快速发展,甜菜制糖企业呈现集团化、多元化、专业化的格局,共有13家糖厂在生产,日加工甜菜能力达5.35万吨,食糖年产能70万吨。内蒙古具有较强的甜菜生产技术优势,甜菜种植的比较收益突出,通过甜菜制糖企业合理布局,建立甜菜种植保护区,依靠科学技术,规模化种植提高了甜菜生产机械化水平,合理轮作,避免甜菜重迎茬,建立环境友好型甜菜生产方式,形成稳定的甜菜生产能力,为制糖企业提供充足原料。采用先进的制糖工艺技术,降低糖分工艺损失,加快新产品开发,延伸甜菜制糖产业链,以效益为中心,推动甜菜制糖行业可持续发展。2018/2019榨季内蒙古食糖产量达到历史高位的65万吨,占国内甜菜糖总产量的49.04%,成为我国最大的甜菜糖产区。     

巴西蔗糖产业特点及对我国蔗糖业的借鉴

通过对巴西蔗糖产业种植、管理、贸易、政策、加工等方面的详细分析可知,巴西是世界上最大的甘蔗生产国和出口国,拥有先进的技术水平和管理经验,其制糖成本低、国际竞争力强。其甘蔗病虫害防控实行:⑴重点培育和推广抗病虫甘蔗良种;⑵通过种苗检疫、脱毒和健康种苗繁育技术严防病虫害的发生与传播;⑶建立病虫害监测预警和防控系统;⑷生物防控技术和化学药剂相结合。其糖厂已实行全网络自动化控制系统,蔗糖生产采用两步法生产精制糖。其蔗糖产业发展特点:重视氮高效品种的选育、甘蔗生产全程机械化率高、采用酒精发酵液定量还田技术、燃料乙醇工业发达、多种糖料蔗供应渠道、加工技术先进生产效率高、甘蔗运输成本较高等特点。我们可从中得到的借鉴为:重视强宿根蔗的选种计划、加速推进甘蔗生产全程机械化进程、建立完善的甘蔗病虫害防控系统、加强蔗糖高值化及副产物综合利用。     

Dynamics of nitrogen translocation from mature leaves to new shoots and related gene expression during spring shoots development in tea plants (Camellia sinensis L.)

The contribution of N remobilization is crucial for new shoots growth and quality formation during spring tea shoots development. However, the translocation mechanism of N from source leaves to sink young shoots is not well understood. In the present study, ¹⁵N urea was applied to mature tea leaves one week before bud break to track N remobilization in a field experiment. The dynamic changes in plant ¹⁵N abundance, contents of amino acids, and the expression levels of genes related to N metabolism and translocation were followed during the 18‐d development of new spring shoots until three expanding young leaves. The results showed that during the growth of new shoots the amount of ¹⁵N in the shoots increased, whereas the N_dff (N derived from ¹⁵N‐urea) in mature leaves decreased, showing that the foliar‐applied N in mature leaves was readily exported to new shoots. This process was found to be accompanied by decline of chlorophylls. In the mature leaves, expression CsATG18a and CsSAG12 involved in autophagy was dramatically induced (> 4‐fold) at approximately nine days after the bud breaking. The genes involved in the transformation of amino acids, including primarily CsGDH2, CsGDH4, CsGLT3, CsGS1;3, and CsASN2 were upregulated by > 3‐fold after bud breaking. The expression levels of CsATG8A, CsATG9, CsSAG12, CsGS1;1, CsGDH1, and CsAAP6 correlated negatively with the N_dff in mature leaves, but positively with ¹⁵N amount and total N amount in new shoots, suggesting these genes played important roles in N export from mature leaves. In the new shoots, the expression of most genes showed two defined peaks, one on six days and one on 12 days after bud breaking. The expression of CsGS2, CsASN3, CsGLT1, and CsAAP4 positively correlated with the ¹⁵N amount and total N amount in new shoots. These genes might be involved in the transport and re‐assimilation of N from mature leaves. The overall results demonstrated that the translocation of ¹⁵N from mature leaves to new spring shoots was regulated by the genes involved in autophagy, protein degradation, amino acid transformation and transport.     

Organic phosphorus mineralization characteristics in sediments from the coastal salt marshes of a Chinese delta under simulated tidal cycles

Journal of Soils and Sediments - Sediment organic phosphorus (OP) mineralization plays an important role in phosphorus cycling in coastal salt marshes. However, information on OP mineralization...     

A field experiment on stabilization of Cd in contaminated soils by surface-modified nano-silica (SMNS) and its phyto-availability to corn and wheat

Journal of Soils and Sediments - Cd-contaminated soil is a common environmental problem. Stabilization is an effective way of in situ remediation for Cd contamination in soils, but there is a lack...     

Response of organic carbon fractions and microbial community composition of soil aggregates to long-term fertilizations in an intensive greenhouse system

Journal of Soils and Sediments - Soil organic carbon (SOC) content and stability, which are regulated by microbial communities, vary depending on aggregate size. The objectives of this study were...     

Nitrogen transformation mediated by nitrate-dependent iron oxidation in anoxic freshwater

Journal of Soils and Sediments - Fe(III) transformation to Fe(II) via the nitrate-dependent iron oxidation process, occurring in anoxic sediments, has an important role in the nitrogen cycle. In...     

滴灌磷肥在灰漠土中运移的研究

磷在土壤中的迁移是影响农业系统磷利用效率的关键因素之一。应用同位素 32P示踪和放射性同位素自显影技术，研究了滴施磷酸一铵在灰漠土中的运移。结果表明:与不施磷处理相比，滴施磷肥可以增加 0～ 15cm土层有效磷的含量。在 0～ 20 cm土层均有不同比例 32P的分布，但大部分 32P仍集中分布在表层，0～ 10 cm土层中的 32P占总量的 72.7%～89.5%，最高可达99%。不同施肥时期磷的运移距离有很大差异，T3(0～ 20cm)>T2(0～ 10 cm)>T1(0～ 5 cm)，这可能是由于干湿交替导致土壤孔隙率变化，进而影响了磷的移动距离。平行于滴灌带方向上磷的运移距离比垂直于滴灌带方向更远。随着正磷酸盐浓度增加，磷的运移距离变大，滴施磷酸一铵处理 32P的移动距离达到对照的 2倍。