采摘花芽对春茶产量与品质的影响

茶树是以收获叶片为主的经济作物。生产上,茶树旺盛的生殖生长会消耗大量营养,影响茶叶的产量和品质。通过比较有无花芽和采摘花芽对春茶产量和品质的影响,为茶园管理提供理论依据和指导。以中茶108为材料,试验设3个处理：T1为有花芽未采摘,T2为采摘花芽,T3为无花芽。在春茶期,分别于3月15日、3月18日、3月22日和3月25日进行采样,测定产量和品质。结果表明,开花会显著降低春茶产量,与有花芽的T1相比,T3处理前3次采摘分别增加了114.3%、55.1%和76.5%。可采摘芽头数量也呈现相同的趋势,与T1相比,T3处理各个时期鲜叶芽头数分别增加了100%、55%、31.6%和9.9%。T2摘花处理也能够显著提高可采摘芽头数量。茶树开花与采摘花芽处理对春茶期间茶叶百芽重的影响主要表现在第1次采摘时,T1处理百芽重最低,T3处理的百芽重最高,达到3.1 g。对茶叶品质成分进行研究发现,无花芽的T3处理鲜叶氨基酸和茶多酚含量均显著高于有花芽的T1处理;与T1处理相比,摘去花芽后T2处理的鲜叶氨基酸和茶多酚含量均有不同程度增加。不同处理间鲜叶养分含量存在一定的差异,并且主要体现在磷(P)、钾(K...     

壳聚糖-高岭土复合体去除铜绿微囊藻的试验研究

利用室内模拟试验,研究了壳聚糖和高岭土单独及复合作用对铜绿微囊藻的去除效果。以250mL烧杯作为试验容器,纯种藻为试验用藻,以叶绿素a和浊度表征藻液浓度的变化。结果表明,单独使用高岭土除藻效率较低,增加高岭土用量难以提高藻的去除率;单独使用壳聚糖对藻的去除效果较好,但是藻的絮凝沉降速度较慢。壳聚糖-高岭土复合体可以明显加快藻类的沉降速率,改善除藻效果。     

湖南镇水库浮游生物及其影响因子的典范对应分析

2006年至2007年间调查了蓝藻(Cyanophyta)暴发水体——湖南镇水库的浮游生物群落结构及其变化,研究了其与环境参数之间的关系。调查期间,共鉴定出浮游植物96种(属),浮游动物73种(属)。单位水体浮游植物平均细胞数量变化于0.49×106～16.71×106L-1之间,浮游动物则变化于8～3548L-1之间。春、夏季螺旋鱼腥藻(Anabaena sporoides)水华持续数月,水体表层细胞密度高达2.28×108L-1,进入秋季后其优势逐渐被颤藻属(Oscillatoria)蓝藻取代。典范对应分析显示,浮游植物的季节演替规律与螺旋鱼腥藻数量、总溶解固形物(TDS)和透明度(SD)存在较高的相关性,浮游动物演替主要与溶解在水中的微囊藻(Microcystis)毒素(EMC)、营养盐和螺旋鱼腥藻数量相关。由于高水平营养盐的存在,上行效应无法有效限制蓝藻的发生,水华蓝藻以其数量优势改变了水体理化条件,成为影响浮游植物群落的潜在因素,而营养盐可能通过主导可食藻类的生长,间接影响浮游动物的动态。将水华蓝藻数量及藻毒素浓度作为环境因子进行多元分析,分别提高了对浮游植物、动物群落的解释15.6%和25.8%,说明水华蓝藻和藻毒素的存在对浮游生物群落的组成和结构具有较大的影响。     

Japanese sardine (Sardinops melanostictus) mortality in relation to the winter mixed layer depth in the Kuroshio Extension region

A drastic population change in Japanese sardine (Sardinops melanostictus) has been noted as being related to winter sea surface temperature (SST) in the Kuroshio Extension region. The former studies suggest two possible explanations. One is that temperature itself affects sardine. The other is that SST represents the environmental change of the Kuroshio Extension region and other causes directly affecting sardine. In this study, we found that sardine mortality from post‐larva to age 1 negatively correlated with the winter mixed layer depth (MLD) in the Kuroshio Extension region from 1979 to 1993. During the period of a deep winter mixed layer (during the early 1980s), sardine mortality was low, whereas mortality was high when the winter mixed layer was shallow (during the late 1980s to early 1990s). By using a lower trophic‐level ecosystem model forced by the observed time series of MLD, SST, light intensity and nutrient data, we found that the estimated spring zooplankton density drastically varies from year to year and has a significant negative correlation with sardine mortality. The inter‐annual variation of spring zooplankton density is caused by the winter MLD variation. During the deep winter mixed layer years, a phytoplankton bloom occurs in spring, whereas during the shallow winter mixed layer years, the bloom occurs in winter. The results of our study suggest that the decline in the Japanese sardine population during the late 1980s to early 1990s was due to an insufficient spring food supply in the Kuroshio Extension region where sardine larvae and juvenile are transported.     

Ecology,physiology and genetics of a phycodnavirus infecting the noxious bloom-forming raphidophyte <Emphasis Type="Italic">Heterosigma akashiwo</Emphasis>

Abstract:   Heterosigma akashiwo virus (HaV) is a large icosahedral virus (∼0.2 μm) harboring a double-stranded DNA (dsDNA) genome (∼294 kbp). The virus is the only member of the genus Raphidovirus in the family Phycodnaviridae. Since its first discovery, a number of ecologic, physiologic and genetic studies about HaV have been conducted; especially, the relationship between H. akashiwo and HaV in nature was studied and viral infection is now regarded as a significant factor influencing the dynamics and termination of H. akashiwo blooms. HaV infection has considerable impacts on H. akashiwo populations in both aspects of fluctuation in biomass (quantity) and changes in clonal composition (quality). Partial sequencing of the HaV genome revealed that a number of genes showed considerable similarity to those of other protist-infecting viruses; still, the phylogenetic position of HaV suggested a number of enigmas in host–virus coevolution. Here are summarized the ecology, physiology and genetics of HaV especially from the viewpoint of the host–virus relationship.     

Evaluation of three phytoplankton species as food for the pearl oyster <Emphasis Type="Italic">Pinctada fucata</Emphasis>

In the pearl cultivation farms of the Ehime Prefecture, Japan, mass mortalities of the pearl oyster Pinctada fucata have occurred since 1994. The occurrences of mass mortality roughly coincided with a shift of the dominant phytoplankton from Skeletonema and Chaetoceros to Chaetoceros and Nitzschia all of which belong to Bacillariophyceae. Hence, we evaluated Nitzschia, together with Chaetoceros and Isocrysis, as food for the oyster. Wet weights, lengths, widths, glycogen contents, and growth rates in terms of wet weight of the oysters in all the feeding treatments were significantly higher than those in the non-feeding treatment. The highest glycogen content (2.34%) and growth rate (2.21 g month⁻¹) were found in the Chaetoceros treatment. Growth rate in the Isocrysis treatment (1.63 g month⁻¹) was also high, although glycogen content in this treatment (0.41%) was low. In the Nitzschia treatment, growth rate of the oyster (0.94 g month⁻¹) was the lowest and glycogen content (0.83%) was also low relative to that in the Chaetoceros treatment. Chlorophyll a concentration in fecal pellets was lowest in the Nitzschia treatment (<2.7 μg mg⁻¹), suggesting more complete digestion of Nitzschia by the oyster. Thus, Nitzschia was edible and digestible but not assimilated by P. fucata. We propose the following scenario for the relationship between Nitzschia dominance and mass mortality. When Nitzschia dominates in a culture area, the physiological condition of P. fucata deteriorates due to low assimilation of Nitzschia by the oyster, followed by susceptibility of the oyster to infection by agents lethal to the oyster.     

秃瓣杜英开花与结实物候期的研究

秃瓣杜英是我国南方特产的优良绿化树种,湖南是该树种绿化苗木及种子的主产区。本文首次报道秃瓣杜英开花与结实的物候期,野生种与栽培类型的花、果及种子的形态变异,提出每年最佳采种时间山区为9月28日~10月5日,丘陵区为9月30日~10月7日。     

‘妃子笑’早花果与晚花果果实发育和糖积累动态及品质差异的比较

以同一株‘妃子笑’荔枝不同花期果实为研究对象,探讨它们在果实发育和糖组分动态及品质方面的差异．研究结果表明：早花果和晚花果的果实及其各组织的生长型均为单s型,其果实发育时期均可划分为Ⅰ期和Ⅱ期,第Ⅱ期又可划分Ⅱa期和Ⅱb期,所不同的是,早花果的Ⅰ期比晚花果要长10d．推测晚花果假种皮在Ⅱb期生长受抑的现象主要还是由于Ⅰ期和Ⅱa期的果皮和种皮生长受到抑制的结果．早花果的糖分积累主要发生在Ⅱa期,晚花果的糖分积累则主要发生在Ⅱb期,它们均是以积累还原糖为主,成熟时两者在总糖及其各组分之间并无显著差别．早花果比晚花果品质好主要表现在果大、含酸量低、固酸比高等方面．     

梅花开花物候期及加长观赏期的研究

根据１８１个梅花品种开花物候期观察记载,在南京地区拟定２月２０日以前进入开花最佳观赏期的为早花品种;２月２０日～３月１０日进入开花最佳观赏期的为中花品种;３月１０日以后进入开花最佳观赏期的为晚花品种．早花品种最佳观赏期最长为２８ｄ,最短为１３５ｄ,平均１７４ｄ;中花品种最佳观赏期最长为１５ｄ,最短为８５ｄ,平均为１１５ｄ;晚花品种花期最长为９６ｄ,最短５ｄ,平均７８ｄ．选取５０个左右的代表品种组成梅花园景品种组合,其中早、中、晚花品种植株数量按３５∶３５∶３的比例配植,可使梅园在正常气候年景梅花最佳观赏期达到５０～５６ｄ,较目前一般梅园观赏期可加长２０～２５ｄ左右,从而大大提高梅园的观赏效益．     

梅花不同品种幼树期及开花物候期研究

在长沙地区,对65个梅花品种的幼树期及开花物候期进行了观察记载。梅花不同品种其幼树期不同,丰后、美人梅、小骨里红等品种的幼树期短,嫁接当年就能开花。三轮玉蝶、桃红朱砂、南京红等品种嫁接后3~4 a才可开花。不同品种开花时期及花期长短也不同。早花品种的最佳观赏期最长为25 d,最短为18 d。中花品种的最佳观赏期最长为24 d,最短为8 d。晚花品种的最佳观赏期最长为10 d,最短为7 d。