2011上半年食糖市场分析

对2011上半年国内外食糖生产、供求走势进行了回顾,对糖料生产成本和食糖价格走势的成因进行了剖析,并对下半年食糖供求和价格形势进行了预测。     

测土配方施肥对甘蔗产量与糖分的影响

在砂页岩母质发育的酸性赤红壤上种植甘蔗新台糖25号,进行测土配方施肥试验研究。结果表明：测土配方施肥对提高甘蔗产量、糖分含量具有明显的促进作用,与常规施肥和不施肥相比,产量分别增加6.53t/hm2和40.24t/hm2,增长7.5%和75.2%;糖分含量分别提高0.8%和1.8%;产糖量分别增加1629.2kg/hm2和6919.6kg/hm2,增长12.5%和89.8%;生产成本降低454元/hm2,净增效益分别增加2935元/hm2和8813元/hm2,增长11.2%;和43.3%,增产增收效果显著。     

持续干旱下天山野生杏幼苗渗透调节物质的累积特性

以新疆伊犁地区的4类野生杏(野生甜仁杏1号、野生甜仁杏2号,野生苦仁杏1号、野生苦仁杏2号)为材料,研究其在干旱胁迫下渗透调节物质的积累特性.对二年生天山野杏苗进行持续80 d的田间自然干旱处理过程中,每隔20 d取样分析土壤相对含水量(SRWC)及叶片相对含水量(LRWC),Na+,K+和可溶性蛋白质、可溶性糖以及脯...     

鲜黄梨果实糖积累及山梨醇转化相关酶活性的变化

对鲜黄梨果实发育中糖积累及山梨醇转化相关酶活性的变化进行了研究。结果表明:果实发育前期以积累山梨醇和淀粉为主,后期以积累果糖为主。果实整个发育过程中,葡萄糖、果糖、蔗糖、可溶性总糖含量逐渐增加,山梨醇和淀粉含量先增加后降低。山梨醇脱氢酶和山梨醇氧化酶在果实发育早中期活性逐渐增高,后期活性降低,但较前期高,两者共同对山梨醇的转化起调控作用。     

甘蔗节间蛋白质含量与生长发育关系的研究

选用8个不同基因型的甘蔗，即粤糖86-368、新台糖16号、农林8号、拔地拉、割手密和从甘蔗杂交后代F1中选出的3株种茎的无性系(单株)。在甘蔗伸长初期，测定其 2节间至 8节间的长度、茎径，同时取 3、 5、 8节间，测定其可溶性蛋白质、细胞壁离子型结合蛋白质、细胞壁共价型结合蛋白质及可溶性总糖的含量。结果表明：从 2节间到 8节间，不同基因型的节间长度的变化极为相似，除割手密外，其它基因型甘蔗的节间长度都在 6节达到最长；但其茎径在 6节间以后仍保持稍微的增粗。从 3节间到 5、 8节间，所有基因型的三类蛋白质含量都逐渐下降，而可溶性总糖含量都逐渐提高。其中，三个节间较粗的基因型即拔地拉、粤糖86—368和无性系3号，其三类蛋白质含量相对较高，而可溶性总糖含量相对较低。     

植物在低温胁迫下的糖代谢研究进展

糖在植物中不仅用于能量代谢,也对植物生长发育、代谢调控及抵抗胁迫等具有重要调节作用。文章对植物在低温胁迫中糖积累的作用、影响糖积累的相关酶变化、外源ABA对低温胁迫下糖代谢影响等研究进展进行综述。展望植物抗寒研究,从基因、转录、蛋白及代谢等组学整体水平上探讨糖代谢应答低温胁迫及糖作为信号分子参与调控机制。     

Effect of Two Magnesium Fertilizers on Leaf Magnesium Concentration,Yield, and Quality of Potato and Sugar Beet

Twelve field experiments were conducted to study the impacts of calcined magnesite and Kieserite fertilizers on yield, quality and leaf concentrations of magnesium (Mg) in potatoes and sugar beet. The rate of Mg applied was 60 kg Mg ha^?1, and the experiments were realized in six locations for both crop species. There were clear increases in leaf Mg concentration and yield of both crops resulting from application of Mg fertilizers. Mean increase in leaf Mg concentration and crop yield for both species were more pronounced with Kieserite than with calcined magnesite. Sugar concentrations of sugar beet and dry matter yield of potatoes were, however, influenced only slightly by the Mg fertilizers. It seems that superiority of Kieserite to calcined magnesite is related to higher Mg solubility of Kieserite. Use of Mg fertilizers with higher solubility helps to avoid the risk of Mg deficiency and subsequent losses in yield and economic returns.     

Interactive effect between Cu‐adapted arbuscular mycorrhizal fungi and biotreated agrowaste residue to improve the nutritional status of Oenothera picensis growing in Cu‐polluted soils

The interactive effect of sugar beet (SB) agrowaste and arbuscular mycorrhizal (AM) fungi inoculation in response to increasing Cu levels was evaluated in the metallophyte Oenothera picensis. Plants were grown in a Cu‐added soil (0, 100, or 500 mg Cu kg^?1), in presence or absence of SB, and inoculated with: (1) indigenous Cu adapted mycorrhiza (IM) isolated from Cu‐polluted soils; (2) Claroideoglomus claroideum (CC); or (3) maintained uninoculated (control). Sugar beet application produced an increase in shoot biomass of 2 to 7 times, improving plant nutritional status and allowing their survival at the highest Cu concentrations. Moreover, AM fungi utilization had a positive effect promoting the plant establishment; nevertheless, Cu plant concentration as well as the mycorrhizal development in terms of AM colonization, AM spore density, and glomalin production were strictly dependent of the AM fungi strains used. Remarkable differences between AM fungi strains were observed at the highest soil Cu level where only plants colonized by IM were able to survive and grow when no SB residue was added. An interactive effect between AM fungi and SB produced a higher plant growth than plants without the amendment application, improving the plant establishment and allowing their survival at highest copper concentrations, suggesting that this combination could be used as a biotechnological tool for the phytoremediation of Cu‐polluted soils.     

Modelling the variability of UK sugar beet yields under climate change and husbandry adaptations

In the future, UK summers are likely to be warmer and drier. Modelling differential water redistribution and uptake, we assessed the impact of future drier climates on sugar beet yields. Weather was generated for 1961–1990 (BASE) and predictions based on low‐ and high‐emission scenarios (LO, HI) described in the most recent global climate simulations by the Hadley Centre, UK. Distributions and variability of relative soil moisture deficit (rSMD) and yield gap (drought‐related yield loss, YG_dr = 1?actual yield/potential yield), and sugar yield were calculated for different time‐lines using regional weather, soil texture and management inputs. The rSMD is estimated to exceed the senescence threshold with a probability of 75% (2050sLO) to 95% (2080sHI) compared with 65% (BASE). The potential yield loss, YG_dr, is likely to increase from 17% (BASE) to 22% (2050sLO) to 35% (2080sHI). However, increasing potential growth rates (CO₂ × temperature) cause average sugar yields to rise by between 1.4 and 2 t ha^?1 (2050sLO and 2050sHI respectively). Yield variation (CV%) may increase from 15–18% (BASE) to 18–23% (2050s) and 19–25% (2080s). Differences are small between regions but large within regions because of soil variability. In future, sugar yields on sands (8 t ha^?1) are likely to increase by little (0.5–1.5 t ha^?1), but on loams yields are likely to increase from 11 to 13 t ha^?1 (2050sHI) and 15 t ha^?1 (2080sHI). Earlier sowing and later harvest are potential tools to compensate for drought‐related losses on sandy soils.