香港巨牡蛎和长牡蛎幼虫及稚贝的表型性状

为了评估香港巨牡蛎和长牡蛎在北方沿海的早期表型性状,于2010年7月,以2009年6月在青岛繁育的两种牡蛎为材料,在大连研究了温度(Mt:(22±1.0)℃及Ht:(28±1.0)℃)、盐度(S₂₀:20±1.0及S₃₀:30±1.0)及中间育成环境(ID:室内及OD:室外)对两种牡蛎幼虫及稚贝表型性状的影响。结果表明:香港巨牡蛎壳宽显著大于长牡蛎(P<0.05),壳高及怀卵量显著小于长牡蛎(P<0.05),壳长、鲜重及壳重两者间无显著差异(P>0.05)。在温度和盐度相同情况下,长牡蛎卵径、受精率、孵化率及D形幼虫均大于香港巨牡蛎;香港巨牡蛎幼虫浮游前期生长较慢,而后快于长牡蛎。两种牡蛎幼虫存活能力在15日龄时高温组>中温组;相同温度下,香港巨牡蛎中盐组>高盐组,长牡蛎高盐组>中盐组。幼虫变态期间,较低的温度延迟了变态时间,降低了变态率,使得两种幼虫变态规格大型化。温度是影响幼虫生长、存活、变态的最主要因素,其次为盐度,交互作用几乎尚未起到作用。中间育成阶段,室外比室内培育效果更好,且香港巨牡蛎稚贝壳高在60日龄以后显著大于长牡蛎(P<0.05),环境是影响稚贝生长的最主要因素;无论室内还是室外两种牡蛎稚贝的存活率均在90%以上,且各实验组间无显著差异(P>0.05)。     

三个牡蛎群体遗传多样性的AFLP分析

采用AFLP技术对太平洋牡蛎(Crassostrea gigas)、近江牡蛎(Crassostrea rivularis)和褶牡蛎(Crassostrea plicatula)3个牡蛎群体共60个个体进行了遗传多样性分析。结果表明,14对引物共扩增得到662个位点,其中多态性位点619个,多态性位点比例为93.50%。太平洋牡蛎、近江牡蛎和褶牡蛎多态位点比例依次为73.26%、70.54%和75.08%,Nei氏基因多样性指数分别为0.256 9±0.197 7、0.226 1±0.195 2和0.268 3±0.194 1,Shannon信息指数分别为0.382 3±0.276 2、0.341 4±0.274 1和0.398 8±0.270 9。上述结果表明,3个牡蛎群体的遗传多样性水平褶牡蛎最丰富,太平洋牡蛎次之,近江牡蛎最小。基因分化系数Gst和基因流系数Nm表明这3个牡蛎群体之间存在一定的基因交流。UPGMA聚类分析表明,太平洋牡蛎和近江牡蛎先聚为一支,而后与褶牡蛎聚在一起。     

盐度对墨西哥湾扇贝幼虫和稚贝生长与存活的影响

2000年4月和2001年4月在浙江省玉环县抛西水产育苗场研究了海水盐度对墨西哥湾扇贝浮游幼虫和稚贝生长和存活的影响。结果表明：浮游幼虫的适宜盐度为16．54—36．58,最适生长盐度为23．38—30．02;稚贝的适宜盐度为23．38—42．70,最适生长盐度为23．38—36．58。     

海水盐度、温度对文蛤稚贝生长及存活的影响

在实验室条件下,研究了不同盐度（19个梯度）、温度（17个梯度）对文蛤稚贝生长和存活的影响.结果表明：文蛤稚贝的适宜生存盐度在6.5～39.5,最适生存盐度在9.0～31.0,适宜生长盐度在7.3～38.7,最适生长盐度在15.0～23.0;其适宜生存温度在4.0 ℃～36.1 ℃,适宜生长温度在7.0 ℃～35.4 ℃,较适宜生长温度在17 ℃～33.5 ℃,最适生长温度在24 ℃～27 ℃.文蛤稚贝对高温度、低盐度有较强的适应性.     

河北唐山曹妃甸-乐亭海域自然牡蛎礁分布及生态意义

牡蛎礁是生态系统服务价值最高的海洋生境之一,目前我国自然牡蛎礁分布和生态现状的基础信息仍然较缺乏。于2019年3月对河北唐山曹妃甸-乐亭海域自然牡蛎礁的空间分布、生态环境、牡蛎生物学和礁体动物群落开展了调查,并评估了该牡蛎礁的生态系统服务价值。该海域自然牡蛎礁分布于溯河(SR)、溯河口海域(SRE)和捞鱼尖海域(LYJ),总面积约15 km~2,是目前我国面积最大的自然牡蛎礁。基于96个牡蛎样品的16S rDNA检测,共识别出92个长牡蛎Crassostrea gigas、3个侏儒牡蛎Nanostrea fluctigera和1个巨蛎属未知种Crassostrea sp.。自然牡蛎礁中牡蛎平均密度介于104—3912个/m~2之间,不同礁区间牡蛎平均密度的大小排序为：SRE>SR>LYJ (P<0.05),平均生物量的大小排序为：SR>SRE>LYJ (P<0.05),平均壳高的大小排序为：SR>SRE=LYJ (P<0.05)。在该牡蛎礁内记录到49种礁体动物,其中软体动物16种、节肢动物16种、环节动物8种、棘皮动物5种、腔肠动物2种...     

香港巨牡蛎与长牡蛎种间配子兼容性

为了评估香港巨牡蛎与长牡蛎的配子兼容性,于2010年7月,以性腺成熟的香港巨牡蛎和长牡蛎为材料,研究了环境因子温度(16、20、24、28、32℃)、盐度(10、15、20、25、30)及内在因子精子浓度(100、101、102、103、104个/μL)、个体差异(240次杂交实验)对其受精率的影响,并计算了以上条件下的F50临界值。结果表明:香港巨牡蛎卵子可以与长牡蛎精子受精,但相反方向不能受精,存在着单向受精现象。温度是影响长牡蛎配子兼容性主要因子,盐度是影响香港巨牡蛎的主要因子,而温度、盐度交互作用是影响种间配子兼容性的最主要因子。种间配子温度、盐度的F50临界值分别为20.90℃、14.7。精子浓度及单对杂交中的个体差异均显著影响配子兼容性,精子浓度的F50临界值为2.40个/μL;在240次杂交实验中,有91次受精率不足50%,说明个体差异比例的F50临界值37.92%。从其内在因子来看,长牡蛎平均受精率最高(96.83%),配子兼容性较好;对于香港巨牡蛎(70.98%)与种间配子(58.70%)而言,受精水平相对较低,且存在着较大的个体差异。     

盐度对宽壳全海笋稚贝存活与生长的影响

在20±1℃条件下,研究了盐度(15、20、25、30、35和40)对宽壳全海笋(Barnea dilatata)稚贝存活与生长的影响。结果表明:盐度对宽壳全海笋稚贝存活、贝壳生长与软体部有机物积累影响显著;盐度15~40是稚贝的适宜生存盐度,28 d平均存活率为78.7%~91.3%;稚贝的最适生存盐度为20~30,平均存活率高于90.0%;稚贝湿重增长的最适盐度为20~35,平均特定生长率为2.963~3.028%·d~(-1);不同盐度下稚贝壳长和壳高的特定生长率变化相近,壳长和壳高生长的适宜盐度为25~35;其中盐度30条件下稚贝有机物与无机物比值最高,达4.396,盐度25次之,为3.375,均显著高于其他各组。研究结果可以为宽壳全海笋的资源保护与增养殖提供参考。     

长牡蛎精子超低温冷冻后超微结构损伤研究

采用程序降温仪分步降温冷冻保存长牡蛎（Crassostrea gigas）精液,并用扫描电镜、透射电镜研究了精子的超微结构损伤。超低温冷冻保存后长牡蛎精子的运动率、受精率及孵化率与鲜精无显著差异。鲜精中84.5%的精子形态结构正常,冻精中73%的精子形态结构正常。形态结构正常的精子表现为顶体、质膜、线粒体与鞭毛结构完整、染色质形状规则,顶体、线粒体及中心粒结构正常,鞭毛形态完整、微管结构清晰;形态结构异常的精子表现为顶体脱落、解体,精子头部质膜膨胀、破裂、染色质肿胀、破裂、解体,线粒体移位、脱落、膨胀,嵴退化或消失,鞭毛弯折、断裂,微管解聚。结果显示,以10% DMSO为抗冻保护剂,HBSS溶液为稀释液,1:4的稀释比例,添加海藻糖,采用分步降温法冷冻保存,对长牡蛎精子具有较好的抗冻保护作用,合适的冻存方法可以有效的保护太平洋牡蛎精子冷冻过程中结构损伤。研究有助于长牡蛎种质资源的收集保存及应用。     

太平洋牡蛎酪氨酸酶基因家族的系统发生分析

文章利用生物信息学方法对太平洋牡蛎(Crassostrea gigas Thunberg)酪氨酸酶基因家族的氨基酸序列特征、分类及系统发生进行了分析。结果表明, 太平洋牡蛎酪氨酸酶基因家族在进化过程中存在基因扩张现象, 其主要方式是基因重复。太平洋牡蛎酪氨酸酶可分为3种类型：分泌型 (Type A), 胞内型 (Type B)和具跨膜结构域型 (Type C)。根据太平洋牡蛎酪氨酸酶进化树分析, 发现Type A酪氨酸酶中, tyr18与其他Type A酪氨酸酶分化较大, 可能是较早分化出来的酪氨酸酶; Type B酪氨酸中的tyr2和tyr9以及Type C中的tyr8为较早分化出的酪氨酸酶。系统发生树分析发现太平洋牡蛎酪氨酸酶的聚类受酪氨酸酶类型以及基因位置的影响, 其分泌型酪氨酸酶首先与头足类分泌型酪氨酸酶聚在一起, 然后与线形动物门分泌型酪氨酸酶聚在一起, 与腔肠动物门分泌型酪氨酸酶分化明显。太平洋牡蛎胞内型酪氨酸酶自身分化较大, 总体上与线性动物门、其他软体动物胞内型酪氨酸酶聚为一支, 与扁形动物门、脊索动物门、腔肠动物门胞内型酪氨酸酶分化较大。太平洋牡蛎具跨膜结构域型酪氨酸酶与扁形动物门、环形动物门以及脊索动物门具跨膜结构域型酪氨酸酶分化明显, 与合浦珠母贝具跨膜结构域型酪氨酸酶聚为一支。这表明双壳类的Type C型酪氨酸酶与其他物种的同源酶的进化差异较大。文章首次探讨了太平洋牡蛎酪氨酸酶家族分类、分化及系统发生, 以期对太平洋牡蛎酪氨酸酶基因家族的理论研究和实际应用提供依据。     

温度和盐度对青蛤孵化及幼虫、稚贝存活与生长变态的影响

在9个温度梯度(10-34℃)和10个盐度梯度(盐度3‰-50‰)条件下,研究了温度和盐度对青蛤孵化及幼 虫、稚贝生存与生长变态的影响。结果表明,青蛤孵化和浮游幼虫生长的适温范围为24-32℃,最适温度均为26- 30℃,稚贝生长的适温范围为22-32℃,最适温度为24-30℃。在最适温度下,D形幼虫变态率达80．7％-88．2％, 浮游幼虫和稚贝的存活率分别为86．2％-88．7％和81．5％-84．0％;孵化及浮游幼虫的生长适宜盐度为15‰- 30‰,稚贝为10‰-35‰,最适盐度均为20‰-25‰。在最适盐度下,D形幼虫的成活率、变态率、生长速度皆最高, 分别达到86．9％、77．5％和9．38×11．0μm/d,匍匐幼虫经14-14．5d发育至双管期稚贝,至双管期稚贝的成活率 82．5％-85．0％,日平均生长达13．1μm以上。与大多数滩涂贝类一样,青蛤属于广温广盐性贝类,且稚贝对低盐的 适应能力强于对高盐的适应能力。     

Effect of salinity and body weight on ecophysiological performance of the Pacific white shrimp (Litopenaeus vannamei)

Ecophysiological responses of Litopenaeus vannamei were evaluated as functions of environmental salinity and animal size. Growth rate, routine metabolic rate, limiting oxygen concentration, and marginal metabolic scope were determined for L. vannamei acclimated to, and tested at, salinities of 2, 10, and 28 ppt, all at 28 °C. Routine metabolic rate (RMR), estimated as oxygen-consumption rate per unit body weight for fasted, routinely-active shrimp, was independent of salinity but decreased with increasing shrimp weight. Limiting oxygen concentration for routine metabolism (LOCr) decreased with increased shrimp weight for the 10 and 28 ppt treatments, but not for the 2 ppt treatment. Marginal metabolic scope (MMS = RMR/LOCr) also decreased with increasing shrimp weight and was independent of salinity. Growth rate was significantly less at 2 ppt than at either 10 or 28 ppt, which gave similar growth rates.     

3种无脊椎动物对近江牡蛎Crassostrea ariakensis和熊本牡蛎C. sikamea的捕食研究

捕食是影响牡蛎种群建立和牡蛎礁发育的重要生物因子之一。通过室内受控实验测定了日本蟳（Charybdis japonica）、脉红螺（Rapana venosa）和黄口荔枝螺（Thais luteostoma）对4组规格（W1：壳高10-20mm;W2：壳高20-30mm;W3：壳高30-40mm;W4：壳高>40mm）近江牡蛎（Crassostrea ariakensis）和熊本牡蛎（C.sikamea）的捕食偏好性和捕食效率。双因子方差分析结果表明,日本蟳对2种牡蛎的捕食效率没有显著性差异（P>0.05）,但牡蛎规格大小显著影响着日本蟳的捕食效率（P<0.05）,即日本蟳对W1组近江牡蛎的捕食效率显著高于W2和W4组（P<0.05）,W3组的被捕食效率介于中间（P>0.05）;日本蟳对W1组熊本牡蛎的捕食效率显著高于W2和W3组（P<0.05）,W4组的被捕食效率与其他处理组均没有显著性差异（P>0.05）。牡蛎种类（P=0.590）和规格大小（P=0.357）对脉红螺的捕食效率均无显著性影响,不同规格的两种牡蛎均呈现较低的被捕食效率。黄口荔枝螺对2种牡蛎的捕食效率无显著性差异（P=0.917）,但牡蛎规格大小显著影响其捕食效率（P=0.035）,即对W1组熊本牡蛎捕食效率显著高于其他3个规格组（P<0.05）,但其对不同规格近江牡蛎的捕食效率没有显著性差异（P>0.05）。2种牡蛎的壳厚与其壳高之间均存在极显著的正相关关系（P<0.001）。研究结果表明,3种无脊椎动物捕食者对近江牡蛎和熊本牡蛎并未表现出差异性的捕食偏好,但对不同规格牡蛎的捕食效率具有种间差异。     

An autecological study of the potentially toxic dinoflagellate Alexandrium affine isolated from Vietnamese waters

The potentially toxic dinoflagellate species Alexandrium affine isolated from Ha Long Bay (Tonkin Gulf), Vietnam was cultured and maintained for morphological, physiological and toxicological studies. Classical morphological examinations including plate pattern were in good agreement with the international nomenclature of the species. The fine structure of A. affine, including morphology of its developmental stages during vegetative and sexual reproduction was found to be typical of other species in the genus. Two general trends in growth of A. Affine from Vietnamese waters were apparent: (1) growth rates were low at low salinities (10 and 15 psu) in all experimental temperatures (21–27 °C); (2) growth rates were high at salinities 25, 30, and 35 psu in all temperatures. There were no significant differences in growth rates at different salinities at low temperature (21 °C), and the most significant difference in growth rate was between high temperature–high salinity and high temperature–low salinity. The optimum temperature and salinity for growth were 24 °C and 30 psu. Maximum division rates per day (0.5–0.7) were at salinities 30 and 35 psu and at temperatures 24 and 27 °C. But the best conditions for division rate were 21 and 24 °C at salinities 30 and 35 psu. Toxicity analyses indicated A. affine to be both toxic and non-toxic at certain times. In the former case, toxicity was very low, 2.28 fmol  per cell; the toxicity component of A. affine was compared with that of A. leei and the mussel Perna viridis including neoSTX, STX, and GTX₁–GTX₄.     

Abundance and growth response of microalgae at Megalon Embolon solar saltworks in northern Greece: An aquaculture prospect

There is continuous interest in many countries in maintaining and manipulating the rich ecological value of hypersaline ecosystems for aquaculture. The Megalon Embolon solar saltworks (northern Greece) were studied in sites of increasing salinity of 60–144 ppt to evaluate Dunaliella salina abundance and microalgal composition, in relation to physical and chemical parameters. Cluster and ordination analyses were performed based on the biotic and abiotic data matrices. Using fresh aliquots from 60 and 140 ppt salinity waters, phytoplankton performance was appraised with flask cultures in the laboratory by varying the inorganic PO₄-P concentration at 23 °C and 30 °C. At the saltworks, among the most abundant microalgae identified were species of the genera Dunaliella, Chlamydomonas, Amphora, Navicula, and Nitzschia. Dunaliella salina populations were predominant comprising 5–22% of the total microalgal assemblages during spring, but only 0.3–1.0% during the summer, when grazing by Artemia parthenogenetica and Fabrea salina was intense. D. salina cell density in April–July was in the range of 0.4–12.5 × 10⁶ L⁻¹ with typical densities of 1.5–4.5 × 10⁶ L⁻¹. Overall, microalgal densities were high in salinities of ≥100 ppt when inorganic-P concentrations were ≥0.20 mg L⁻¹ within saltworks waters. Multivariate analysis of species abundance showed that algal growth responses were primarily related to variation in salinity and inorganic-P concentrations, but also to NO₃-N concentration. In the laboratory, experiments indicated effective fertilization and denser microalgal growth under high inorganic PO₄-P applications (4.0 and 8.0 mg L⁻¹) at 60 ppt salinity and 23 °C. The lower PO₄-P applications (0.6–2.0 mg L⁻¹) were more effective at 60 ppt salinity and 30 °C. At 140 ppt salinity, microalgal growth response was less obvious at any of the corresponding phosphorus concentrations or temperatures. In both salinity experiments, Dunaliella salina bloomed easily and was predominant among the microalgae. Our observations indicate that Dunaliella salina populations and the overall rich microalgal profile of the saltworks, along with their performance in laboratory mono–and mixed cultures hold promise for mass cultivation within the M. Embolon saltworks basins.     

The combined influence of sub-optimal temperature and salinity on the in vitro viability of Perkinsus marinus, a protistan parasite of the eastern oyster Crassostrea virginica

Perkinsus marinus is a major cause of mortality in eastern oysters along the Gulf of Mexico and Atlantic coasts. It is also well documented that temperature and salinity are the primary environmental factors affecting P. marinus viability and proliferation. However, little is known about the effects of combined sub-optimal temperatures and salinities on P. marinus viability. This in vitro study examined those effects by acclimating P. marinus at three salinities (7, 15, 25 ppt) to 10 °C to represent the lowest temperatures generally reached in the Gulf of Mexico, and to 2 °C to represent the lowest temperatures reached along the mid-Atlantic coasts and by measuring changes in cell viability and density on days 1, 30, 60 and 90 following acclimation. Cell viability and density were also measured in 7 ppt cultures acclimated to each temperature and then transferred to 3.5 ppt. The largest decreases in cell viability occurred only with combined low temperature and salinity, indicating that there is clearly a synergistic effect. The largest decreases in cell viability occurred only with both low temperature and salinity after 30 days (3.5 ppt, 2 °C: 0% viability), 60 days (3.5 ppt, 10 °C: 0% viability) and 90 days (7 ppt, 2 °C: 0.6 ± 0.7%; 7 ppt, 10 °C: 0.2 ± 0.2%).     

Interacting effects of temperature and salinity on Bonamia sp. parasitism in the Asian oyster Crassostrea ariakensis

The proposition to introduce the Asian oyster Crassostrea ariakensis to the mid-Atlantic region of the USA is being considered with caution, particularly after the discovery of a novel microcell haplosporidian parasite, Bonamia sp., in North Carolina. Although this parasite was found to be pathogenic in C. ariakensis under warm euhaline conditions, its persistence in C. ariakensis exposed to various temperature and salinity combinations remained unresolved. In this laboratory experiment, we tested the influence of temperature in combination with a wide range of salinities (10, 20 and 30 psu) on Bonamia sp. Temperature was either changed from warm (>20 °C) to cold (6 °C for 6 weeks) and back to warm or maintained constant and warm. Warm temperature was associated with higher host mortality than cold temperature, suggesting that temperature influenced Bonamia sp. pathogenicity. The effect of salinity was revealed under warm temperature with highest mortality levels observed in infected C. ariakensis exposed to 30 psu. When temperature was increased following low-temperature exposure, Bonamia sp. was not detected; however sub-optimal experimental conditions may have contributed to this result, making it difficult to draw conclusions regarding the reemergence of the parasite after low-temperature exposure. Although the overwintering of Bonamia sp. in C. ariakensis will need to be further investigated, the results presented here suggest that Bonamia sp. may be able to persist in C. ariakensis under a combination of low temperature and meso- to euhaline salinities.     

Effects of NaCl salinity on growth, morphology, photosynthesis and proline accumulation of Salvinia natans

The effects of NaCl salinity on growth, morphology and photosynthesis of Salvinia natans (L.) All. were investigated by growing plants in a growth chamber at NaCl concentrations of 0, 50, 100 and 150 mM. The relative growth rates were high (ca. 0.3 d⁻¹) at salinities up to 50 mM and decreased to less than 0.2 d⁻¹ at higher salinities, but plants produced smaller and thicker leaves and had shorter stems and roots, probably imposed by the osmotic stress and lowered turgor pressure restricting cell expansion. Na⁺ concentrations in the plant tissue only increased three-fold, but uptake of K⁺ was reduced, resulting in very high Na⁺/K⁺ ratios at high salinities, indicating that S. natans lacks mechanisms to maintain ionic homeostasis in the cells. The contents of proline in the plant tissue increased at high salinity, but concentrations were very low (<0.1 μmol g⁻¹ FW), indicating a limited capacity of S. natans to synthesize proline as a compatible compound. The potential photochemical efficiency of PSII (F_v/F_m) of S. natans remained unchanged at 50 mM NaCl but was reduced at higher salinities, and the photosynthetic capacity (ETR_max) was significantly reduced at 50 mM NaCl and higher. It is concluded that S. natans is a salt-sensitive species lacking physiological measures to cope with exposure to high NaCl salinity. At low salinities salts are taken up and accumulate in old leaves, and high growth rates are maintained because new leaves are produced at a higher rate than for plants not exposed to salt.     

Antioxidant defenses and oxidative stress parameters in tissues of mud crab (Scylla serrata) with reference to changing salinity

The effects of salinity (10, 17 and 35 ppt) on O₂ consumption, CO₂ release and NH₃ excretion by crabs and oxidative stress parameters and antioxidant defenses of its tissues were reported. An increase in salinity caused a decrease in O₂ consumption and CO₂ release and an increase in ammonia excretion by crabs. Lipid peroxidation, protein carbonyl, H₂O₂ levels and total antioxidant capacity of the tissues elevated significantly at 35 ppt salinity except in abdominal muscle where H₂O₂ content was low. Ascorbic acid content of tissues was higher at 17 ppt salinity than at 10 and 35 ppt salinities. With increasing salinity, a gradual decrease in SOD, an increase in catalase, no change in GPx and a decrease followed by an increase in GR activities were recorded for abdominal muscle. While for hepatopancreas, an increase followed by a decrease in SOD and catalase, decrease in GPx and GR activities were noticed with increasing salinity. In the case of gills, a decrease followed by an increase in SOD, a decrease in catalase and GPx and an increase in GR activities were noted when the salinity increased from 10 ppt to 35 ppt. These results suggest that salinity modulation of oxidative stress and antioxidant defenses in Scylla serrata is tissue specific.     

桉树杂交种对桉树枝瘿姬小蜂的抗性变异分析

植物种间杂交是一种普遍自然现象,杂交往往造成植物表型及生理变异,从而改变杂种抗虫性。与亲本种相比,杂种抗虫性可能增强或减弱,也有可能处于与亲本相似水平。初生、次生代谢物的质变与量变是引起杂种抗虫性变异的重要原因。近年来,桉树杂交育种已在世界范围内广泛应用并取得了显著成效,桉树杂交种间抗虫性表现参差不齐,因此,桉树是研究杂交种抗虫性变异机制的理想材料。以2个桉树杂交种巨细桉DH201-2、巨尾桉G9及桉树重要害虫桉树枝瘿姬小蜂为研究对象,比较了2个杂交种与其纯亲本种[(巨桉×细叶桉),(巨桉×尾叶桉)]间的抗虫性差异;同时,综合比较了品系间叶片性状(叶片厚度、含水率、比叶面积)、初生化合物(C、N、可溶性糖、可溶性蛋白)及次生化合物(总酚、单宁)差异,以研究桉树杂交种抗虫性变异的理化机制。结果表明:DH201-2感染桉树枝瘿姬小蜂的虫瘿数目显著高于其双亲本种,而G9上虫瘿数目显著低于其双亲本种。DH201-2与G9的叶片厚度与巨桉相近,而显著薄于另一亲本种。DH201-2叶片含水率显著高于细叶桉、与巨桉相近;G9叶片含水率则显著低于其双亲本种。相似的是,DH201-2和G9的比叶面积均显著高于其双亲本种。初生化合物方面,DH201-2叶片可溶性糖和可溶性蛋白含量均显著高于其亲本种,N含量则仅高于细叶桉;而G9叶片可溶性蛋白含量虽高于其双亲本种,可溶性糖含量则无显著差异,N含量显著低于其双亲本种。次生化合物方面,DH201-2叶片总酚和单宁含量显著低于其双亲本种,而G9则显著高于其双亲本种。因此,与其亲本种相比,DH201-2感虫性增加,而G9抗虫性增加;与桉树枝瘿姬小蜂发育相关的营养指标(如含水率、可溶性糖、N含量)及次生防御物质(如总酚、缩合单宁)在桉树杂交种组织内的含量差异影响了桉树杂交种对桉树枝瘿姬小蜂的抗性。在全球推行桉树杂交育种且桉树害虫数量逐年增加的大背景下,应加强对桉树杂交种抗虫性机制研究,为选育高抗品系及桉树产业可持续发展提供理论指导。     

Effects of salinity on photosynthesis and respiration of the seagrass Zostera japonica: A comparison of two established populations in North America

Photosynthetic responses were quantified for two Zostera japonica Aschers. and Graebn. populations from the northern and southern limits of distribution exposed to a range of salinities along the Pacific Coast of North America. Plants were collected from Padilla Bay, Washington (northern) and Coos Bay, Oregon, USA (southern) and cultured together in experimental tanks at 3 salinities (5, 20 and 35) under saturating irradiance for 3 weeks. Subsequently, photosynthesis–irradiance (P vs. E curves) relationships for leaf segments from the two populations were assessed using an oxygen electrode system. We found no evidence for diel rhythms in either light saturated photosynthesis (P_max) or dark respiration (R_d). For the Padilla Bay population, P_max ranged from 192 to 390 μmol O₂ g DW⁻¹ h⁻¹; for the Coos Bay population P_max ranged from 226 to 774 μmol O₂ g DW⁻¹ h⁻¹. Photosynthetic maxima of the Coos Bay plants occurred at a salinity of 20, whereas salinity had no effect on the photosynthetic maxima of the Padilla Bay plants. There were significant differences in leaf tissue R_d among salinity treatments but the two populations responded similarly to salinity. North American populations of Z. japonica are best adapted to intermediate salinities, displaying minimum R_d rates, lower compensation irradiance, higher saturation irradiance, and greater P_max rates at a salinity of 20. Additionally, the southern population may be better adapted to southward expansion along the Pacific Coast and changes associated with global climate change.