New insights into the carotenoid biosynthesis in Torreya grandis kernels

Torreya grandis is a characteristic rare economic tree species in subtropical mountainous areas. The nut has a variety of bioactive compounds, such as polyphenols and vitamins. However, the carotenoids compositions and its regulatory mechanisms underlying carotenoid biosynthesis in kernels remain unknown. Here, the major carotenoids in the kernel were analyzed. The result showed that lutein and β-carotene were the predominant carotenoids in the kernel, while low levels of a-carotenoid and zeaxanthin were detected. Lutein and β-carotene were decreased during the maturation of kernel. Expression analysis by RNA-seq and q RT-PCR indicated that the expressions of TgCYP97A3 and TgLCYB were also reduced during the maturation of kernel. The contents of lutein or β-carotene were obviously increased in tobacco transiently overexpressing TgCYP97A3 or TgLCYB. Moreover, DPPH radical scavenging activity and FRAP were also significantly enhanced. In addition, several MYB and WRKY transcription factors TgMYBS3, TgMYB48 and TgWRKY11 were identified to positively regulate the TgCYP97A3 expression, while TgMYB48, TgWRKY2 and TgWRKY11 could upregulate the TgLCYB expression. The illustration of carotenoids biosynthesis and its molecular mechanism in kernels not only provides a basis for understanding carotenoids biosynthesis in kernels, but also enables the use of molecular biotechnology to develop new health products rich in carotenoids based on T. grandis nuts.

香榧Torreya grandis 'Merrillii'的扦插繁殖

香榧Torreya grandis‘Merrillii’造林多采用培养多年嫁接大苗,尚未在生产上使用扦插繁殖。分别研究了扦插季节、外源植物生长调节物质种类及质量浓度、插穗选择与处理以及基质对香榧扦插生根的影响。结果表明:以当年生枝条为插穗,夏季扦插成活率显著高于其他3季,死亡率低,生根时间较短;夏季以半木质化枝条为插穗,用100.0或200.0 mg·L-1的萘乙酸(NAA)处理香榧插穗,生根率分别为64.4%和55.6%,其生根率与生根质量高于吲哚丁酸(IBA)和双吉尔6号生根粉(GGR6)处理;夏季用2.5 mg·L-1标典3721扦插专用生根液处理香榧带踵枝条15 s,生根率为96.7%,侧根数多,根系发达;秋季硬枝扦插,5种基质配比中以V(泥炭)∶V(珍珠岩)∶V(蛭石)=1∶1∶1生根率和生根指数较好。研究结果说明:香榧扦插繁殖能获得较高的生根成苗率,具有在生产上直接应用的前景,但规模化生产尚需将上述研究结果组合起来开展进一步的研究。

Effects of Torreya grandis Root Rot on Seedling Growth and Screening of Its Chemical Control Agents

[Objectives]This study was conducted to prevent the occurrence of root rot disease in Torreya grandis and improve the yield and quality of T.grandis.[Methods]One-year-old and two-year-old seedlings of Torreya grandis‘Xifei’and‘Cufei’were inoculated with the root rot pathogen Fusarium fujikuroi,and the changes in photosynthesis,chlorophyll content,malondialdehyde,and defense enzyme system(superoxide dismutase,peroxidase,and catalase)activity in leaves of T.grandis seedlings were investigated using water as a control.Meanwhile,the control effects of 80%carbendazim wettable powder,64%metalaxyl·mancozeb wettable powder,430 g/L tebuconazole suspension and 30%difenoconazole·cyproconazole EC on root rot in T.grandis were investigated.[Results]After inoculation with the pathogen F.fujikuroi,the net photosynthetic rates and transpiration rates in leaves of T.grandis‘Xifei’and‘Cufei’decreased,and the contents of chlorophyll decreased,while the contents of malondialdehyde increased,and the contents of superoxide dismutase and catalase increased with time.However,peroxidase showed a high activity in T.grandis‘Cufei’only,but a trend of"increasing-decreasing-increasing"in T.grandis‘Xifei’.Among the four chemical control agents,64%metalaxyl·mancozeb wettable powder had the best control effect on root rot of T.grandis caused by the pathogenic fungus F.fujikuroi.[Conclusions]The net photosynthetic rate,transpiration rate,chlorophyll content,malondialdehyde content,superoxide dismutase activity and catalase activity could all be used as screening indicators for T.grandis varieties resistant to root rot.Meanwhile,64%metalaxyl·mancozeb wettable powder could be used as a control agent for root rot on T.grandis.

Chinese Torreya grandis cv.Merrillii seed oil affects obesity through accumulation of sciadonic acid and altering the composition of gut microbiota

Torreya grandis cv.Merrillii(Taxace,Torreya)is mainly distributed across the hilly areas of subtropical China and is well known for its nutritional value.In this study,the ameliorative effects of T.grandis seed oil on lipid metabolism were investigated,and the underlying mechanism was explored from the perspective of gut microbiota.Mice experiments showed that the rate of body mass gain in the group where the mice were fed a high-fat diet(HFD)and supplemented with 550 mg/(kg·day)T.grandis seed oil(HFD+TO550 group)was 42.27%,while it was 62.25%in the HFD group.Compared with the HFD group,the liver and fat indices,total cholesterol,triglycerides,and low-density lipoprotein cholesterol were reduced in the oil-supplement groups.Moreover,the oil supplement significantly changed the fatty acid composition and alleviated pathological damage to the liver caused by the high-fat diet.Additionally,the distinct clustering of bacteria in the composition of gut microbiota was observed in the oil treatment group compared with that in the HFD group.T.grandis seed oil significantly increased the abundance of the beneficial bacteria and short-chain fatty acid producers,including Lactobacillus,Bifidobacterium,Faecalibaculum and Allobaculum.Our results suggest that the supplements of T.grandis seed oil could alleviate hyperlipidemia caused by HFD.These positive effects are considered to be related with sciadonic acid(SCA)and are partially mediated by alterations in gut microbiota composition and functionality.

Nutrients Determination in Nuts from Different Torreya grandis Cultivars

[Objectives]This study aimed to investigate the differences in nutritional properties of nuts from different Torreya grandis cultivars.[Methods]Seven T.grandis cultivars were selected to analyze the protein,soluble carbohydrate,vitamin E,amino acids and fatty acid composition,and evaluate nutritional value of T.grandis nuts from different cultivars using gray correlation analysis.[Results]The kernels of T.grandis contained 9.47%-13.3% protein,1.92%-2.36% soluble carbohydrate,0.16-0.22 mg/g vitamin E,8.40%-11.55% amino acids,and 42.09%-49.29% fatty acid including 35.14%-40.14% oleic acid.And the coefficient of variation ranged from 5.02% to 18.9% among different cultivars.Meanwhile,the average contents of essential amino acids(E),nonessential amino acids(N)and children essential amino acids(C)were 3.88%,6.07% and 0.99%,respectively.The ratios of E/T and E/N were quite stable and in fully compliance with the recommendation standards of amino acids composition from WHO/FAO.[Conclusions]Overall,the nutritional value of tested seven cultivars could be ranked in the following decreasing order using gray correlation analysis:T.grandis cv.Dong No.2>T.grandis cv.Longfeng>T.grandis cv.Dingshan>T.grandis cv.Merrilli>T.grandis cv.Dong No.3>T.grandis cv.Dong No.1>T.grandis cv.Zhuyan.

两个香榧新品种美人指和早珍珠的选育

美人指和早珍珠是2023年从浙江省嵊州市实生榧树中选育出的两个新品种,采用穗条嫁接方式繁育子代。美人指种实质量10.77 g,呈卵球形,种形指数1.69,鲜出核率26.8%,种核质量2.89 g,核形指数2.74,种核细长、种壳较薄,干核出仁率72.54%,种仁含油率59.1%,蛋白质含量(w,后同)13.1%,可溶性糖含量2.94%。早珍珠种实质量7.98 g,呈圆球形,种形指数1.21,鲜出核率33.7%,种核质量2.69 g,核形指数1.75,呈近卵球形,种壳极薄,干核出仁率达78.68%,种仁含油率57.6%,蛋白质含量11.0%,可溶性糖含量4.17%。两个品种在炒制加工后,均表现出极易脱衣、质地松脆、后味香甜、综合口感佳的特点,推广应用前景广阔。美人指4月上旬开花,种实9月上旬成熟;早珍珠花期较早,于3月下旬开花,10月上旬种实成熟,成熟期较迟。子代测定结果表明,两个品种的种实性状、种仁风味与母株表现一致,且早实性、丰产性和稳产性良好,适宜在浙江省及相似环境地区栽培。

香榧藻斑病病原的分离鉴定及防治药剂筛选

【目的】探明香榧藻斑病的病原种类及其生物学特性,筛选对香榧藻斑病具有良好防治效果的药剂,为香榧藻斑病防治提供科学依据。【方法】在浙江省香榧主产区采集藻斑病病叶,结合传统形态学方法与分子生物学手段对从病叶中分离获得的香榧绿藻进行鉴定,明确病原藻的生物学特性,通过室内毒力测定和林间防治试验筛选防治香榧藻斑病的优良药剂。【结果】1)从香榧藻斑病病叶中分离获得3种病原绿藻类群,结合藻株形态学特点以及SSU-ITS区间序列分析,3种绿藻类群分别被鉴定为链带藻、软克里藻和Tritostichococcus corticulus,均为香榧病原新记录种。3种香榧绿藻的培养条件相似,均适宜在初始pH 11、温度25℃、光照/黑暗为12 h/12 h光周期下的BG-11培养基中生长。2)以混合藻为靶标进行室内毒力测定试验显示,12%松脂酸铜悬浮剂灭藻效果最好,EC50可达8.33 mg·L^(-1),显著低于其他药剂(P<0.05),其后依次为33.5%喹啉铜悬浮剂、80%波尔多液、20%噻菌铜悬浮剂和45%石硫合剂。林间防治试验表明,施药30天后,12%松脂酸铜和33.5%喹啉铜悬浮剂的防治效果分别达78.11%和71.62%。【结论】从浙江省香榧上新发现3种病原绿藻类群,藻群生物学特性类似。室内毒力测定和林间防治试验表明,12%松脂酸铜和33.5%喹啉铜悬浮剂对香榧藻斑病有较好防治效果。

叶面喷施硒肥对香榧幼苗叶片代谢组的影响

[目的]分析亚硒酸钠叶面喷施后对香榧(Torreya grandis)幼苗叶片代谢组的影响,探究亚硒酸钠喷施后香榧叶片次生代谢物的累积情况及其对果实品质的影响。[方法]以苗龄2年的香榧幼苗为供试材料,叶面喷施亚硒酸钠(浓度为100μg·L^(-1))2次,间隔15 d。第二次喷施后15 d,采取1年生叶片进行代谢组分析,以色谱-质谱研究香榧幼苗叶片代谢物差异。[结果]在正离子模式下,处理组和对照组之间有909种差异代谢物,其中69种显著变化(27种显著上调,42种显著下调)。在负离子模式下,出现433种差异代谢物,其中43种显著变化(11种显著上调,32种显著下调)。对人体有益的一些次生代谢物显著增加,如车前苷(2.827倍)、川芎内酯(2.524倍)、6-唾液乳糖(2.021倍)、阿齐沙坦(1.931倍)。[结论]香榧叶片喷施亚硒酸钠有利于促进对人体有益的次生代谢物的生物合成及其在叶片中的累积。

香榧油-薯蓣皂素油凝胶的制备及其结构和消化特性研究

以香榧油(Torreya grandis oil, TGO)为油相、薯蓣皂素(Diosgenin, DSG)为凝胶剂制备TGO-DSG油凝胶(TDOG油凝胶),研究其微观结构、流变特性、质构特性、晶体结构等,以及其凝胶形成原理及凝胶化对其消化特性的影响规律。结果表明:TDOG油凝胶是由小而密和大而松散的两种球状DSG结晶通过纤维交联的三维网络构建而成。TDOG油凝胶的储能模量(G′)大于损耗模量(G″),呈现剪切稀化特征,相转变温度约为86.8℃。当消化时间为120 min时,TDOG油凝胶的消化率为40.7%,显著低于TGO(50.9%),即凝胶化能降低TDOG中TGO的消化率;另外,TDOG油凝胶消化上清液中的饱和脂肪酸含量高于不饱和脂肪酸,即凝胶化会增加不饱和脂肪酸的消化难度,且不饱和度越高其消化难度越大。因此,TDOG油凝胶可作为固体脂肪的替代品,应用于健康功能食品的开发。

基于MaxEnt模型预测湖南省榧树适宜分布区

【目的】榧树Torreya grandis是我国特有的珍稀经济树种,预测榧树在湖南省的适宜分布区,探究影响其分布的主导环境因子,有助于其保护策略的制定和开发利用适宜地的选择。【方法】以湖南省193个野外调查榧树分布点为基础数据源,选取了22个影响其分布的环境变量,运用MaxEnt最大熵模型和ArcGIS10.7软件,分析影响其分布的主导环境因子,预测其在湖南省的适宜分布区。【结果】1)ROC曲线下训练数据集10次交叉验证拟合的平均AUC值为0.914,测试数据集10次交叉验证拟合的平均AUC值为0.867,标准差为0.074,模型预测精度可靠。2)限制榧树当前潜在适生区分布的4个关键因素依次是海拔、坡度、最干季平均温度以及最热季降水量,其百分比贡献率依次为29.40、16.90、8.60、7.30;置换重要性依次为53.30、14.60、5.70、6.50。43)榧树在湖南省的适生区总面积为9.114×10 km^(2),高适生区、中适生区、低适生区面积分别为0.872×10^(4)、2.659×10^(4)、5.583×10^(4) km^(2);榧树适生区主要集中在湘中、西、东南地区,高、中适生区集中分布在邵阳北部、南部、西南部,益阳西南部,永州中南部,娄底西北部以及怀化中南部。【结论】地形、气候等因子综合影响着湖南省榧树的地理分布格局,邵阳、益阳、永州、娄底、怀化等地区中,海拔较低、地势相对平缓、气候凉爽的溪谷地区可能适合榧树的引种栽培。

浙江省香榧害虫调查

2017年6月开始对浙江省主要香榧Torreyagrandis生产县(市)进行调查,发现香榧害虫120种,隶属5目,其中61种为新发现的香榧害虫。调查发现,介壳虫危害较重,混交林香榧虫害危害程度低于纯林。香榧害虫的增多与纯林种植且过度精细化管理有相关性。该结果对香榧虫害防治、科研人员教学研究具有重要参考价值。

马尾松改造成香榧林对地表径流及氮磷流失的影响

掌握马尾松Pinus massoniana林转换为香榧Torreya grandis林对地表径流及氮磷流失的影响,可为人工林经营管理提供一定的基础。在浙江省东阳市林业总场设置马尾松林、香榧幼龄林和香榧中龄林3种处理径流小区,全面监测2023年地表径流量,分析径流水中不同形态氮、磷浓度,并计算养分流失量。结果表明:地表径流量大小为马尾松林(218.0 m^(3)·hm^(−2))>香榧幼龄林(206.0 m^(3)·hm^(−2))>香榧中龄林(157.0 m^(3)·hm^(−2));地表氮流失量大小为香榧幼龄林(806.56 g·hm^(−2))>香榧中龄林(582.80 g·hm^(−2))>马尾松林(159.89 g·hm^(−2)),磷流失量大小为香榧幼龄林(265.55 g·hm^(−2))>香榧中龄林(183.57 g·hm^(−2))>马尾松林(48.72 g·hm^(−2))。与马尾松林相比,香榧幼、中龄林地表径流量分别减少了5.5%和22.5%,而氮流失量增加了4.04倍和2.65倍,磷流失量增加了4.45倍和2.77倍。综上,马尾松林改造成香榧林后降低了地表径流,但增加氮、磷流失量,随着香榧林龄的增大,地表径流及氮、磷流失量随之降低。

特色经济林木精细化种植适宜性区划研究——以诸暨香榧为例

特色经济林木的引入和扩种一直备受关注,为了更加科学合理地引入和扩种,以诸暨香榧为例,开展了基于气候、地形和土壤的种植适宜性区划研究。使用诸暨市48个气象站的气象数据,以及诸暨市地形、土壤和土地利用类型数据,采用主成分分析法、层次分析法、空间插值法和综合适宜度评价方法,计算香榧种植生境适宜度的空间分布,以进行种植区划。结果表明:诸暨市适宜种植香榧面积有624 km^(2),占诸暨总面积的27%;较适宜种植香榧面积有416 km^(2),占诸暨总面积的18%;不适宜种植香榧的面积有1271 km^(2),占诸暨总面积的55%。香榧适宜与较适宜种植的区域主要在诸暨市的西部、南部和东部,主要可扩种乡镇为东白湖镇、璜山镇和马剑镇;香榧不适宜种植在诸暨市中部盆地。相较于气候因素,土壤和地形因素更大程度上限制了香榧的种植。

香榧油提取工艺优化及其微乳制备

为提高香榧(Torreya grandis)油提取率和了解香榧油具体成分,以香榧为试验材料,采用单因素试验,研究料液比、超声功率和超声时间对香榧油提取率的影响;采用响应面法优化香榧油提取工艺,加入不同表面活性剂和助表面活性剂,确定香榧油微乳制备工艺。结果表明,在超声时间25 min、超声功率352 W和料液比1∶15 g/mL的条件下,香榧油提取率为48.92%。GC-MS分析结果表明,香榧油以棕榈油酸、硬脂酸、油酸、亚油酸、二十碳二烯酸和神经酸为主。香榧油微乳的制备工艺为以香榧油为油相、无水乙醇为助表面活性剂、PEG-40和Tween-80为表面活性剂,无水乙醇、PEG-40和Tween-80的质量比为3∶1∶2。

响应面法优化香榧擂茶的制作工艺

以香榧饼粕粉、糯米粉、姜粉等为主要原料,白砂糖、茶粉、花生碎、黑芝麻、炒米为辅料制作擂茶。以感官评分为指标,通过单因素试验及响应面试验优化擂茶的制作工艺。结果表明,擂茶的最佳工艺配方为香榧饼粕粉11.3 g、姜粉0.7 g、白砂糖7.5 g、茶粉0.8 g、糯米粉15 g、花生碎4.6 g、熟芝麻3 g、炒米1.6 g。此配方制作的擂茶口感丰富、香味浓郁、冲调性能最佳且营养价值高。

不同配方施肥对榧树生长的影响分析

榧树是红豆杉科榧树属常绿针叶乔木,是集材用、药用、果用、油用和观赏于一体的多功能珍贵树种,应用价值较大。为了探索榧树幼苗的最佳施肥配比,本研究分别将尿素、过磷酸钙和氯化钾作为氮、磷和钾肥,采用三因素三水平正交试验设计,对2年生榧树幼苗进行试验。结果表明,株高、地径、总根长、根系平均直径、根尖数、叶片可溶性糖含量和可溶性蛋白含量的最优配方为N2P3K3;根表面积、根体积的最优配方为N2P1K3;地上干重、总生物量、叶绿素a含量、叶绿素总含量和类胡萝卜素含量的最优配方为N2P2K3;地下干重、叶绿素b含量的最优配方为N2P2K1。本研究根据不同配方施肥处理对榧树的生长进行正交及方差分析,筛选出适宜榧树幼苗生长的氮磷钾配比,为榧树培育的施肥提供参考。

不同优株香榧果实特性比较及营养品质分析

以浙江诸暨东白湖镇上英村的7个香榧优株为试材,对其表型指标和种仁品质指标进行单因素方差分析、皮尔逊相关性分析与品质综合评价。结果表明:(1)除核形指数和出仁率外,其他表型性状的最大值均出现在3号香榧;6号香榧优株核形指数显著大于其他优株;出仁率最大的是7号(75.11%)。(2) 7个香榧优株平均含油率为49.90%, 5号最高(53.67%), 4号最低(45.35%)。脂肪酸组成以亚油酸和油酸为主,平均含量分别为46.21%和32.07%;香榧种仁主要包括8种矿质元素,平均含量排在前三位的分别为K (7.19 g·kg~(-1))、 Mg (2.87 g·kg~(-1))和P (2.19 g·kg~(-1))。(3)相关性分析表明,元素与元素间、脂肪酸组成间、矿质元素与脂肪酸组成之间表现出的相关性差异较大。(4)采用主成分分析对7个香榧优株进行综合评价,6号香榧优株综合得分最高。

基于香榧引种区香榧籽无机元素分析的引种试验评价

【目的】评价贵州引种香榧示范提供基础理论支撑。【方法】以贵州引种香榧试验区香榧生长土壤及植株为研究对象,对土壤化学性质、香榧植株不同部位中重金属及微量元素进行检测,评价贵州引种香榧试验区重金属和微量元素的无机元素品质,探讨香榧籽中重金属及微量元素的影响因素。【结果】土壤pH平均值为6.80,土壤有机质含量平均值为31.09 g/kg,土壤全氮平均值为1.70 g/kg,土壤全钾平均值为17.84 g/kg,土壤全磷平均值为0.91 g/kg,土壤碱解氮平均值为127.14 mg/kg,土壤有效磷平均值为91.45 mg/kg,土壤速效钾平均值为475.50 mg/kg,土壤肥力高。香榧籽中重金属Hg、As、Cr、Cd及Pb的含量均最小,符合《绿色食品——烘炒食品》标准。香榧籽中Ni、Cu、Zn、Se、Fe、Mn和Ca含量分别为1.608、10.644、27.124、0.053、46.19、12.58和3400 mg/kg,属于高钙、富铁,含硒坚果。土壤碱解氮与香榧籽Cd、香榧籽中Cd和叶片中Cd之间呈极显著正相关,香榧籽中Cd和杆中Cd之间为显著正相关。【结论】从无机元素分析来看,贵州引种香榧试验区的香榧籽属于绿色、安全、高钙、富铁且含硒坚果。

贵州引种香榧(雌)雄球花发育及小孢子发生研究

为更好地了解香榧引种后雄球花(小孢子叶球)及小孢子发育规律,以贵州引种地的优良香榧植株为研究对象,采用外部形态观测结合石蜡切片等方法对其内部显微结构进行研究。结果表明,当年5月中下旬出现小凸起(小孢子叶球原基形成),9—12月肉眼可见绿色凸起体积逐步增大(小孢子叶球中轴迅速伸长),翌年2月中下旬小孢子叶球从紧包的芽鳞中显现(小孢子母细胞开始分化),3月中下旬至4月初,小孢子叶球成熟,体积变化不明显。香榧雄株生殖生长周期持续11个月左右;电子显微结构显示,成熟花粉粒,近球形,直径为22~27μm,褶皱成三歧状隆起,表面具有稀疏、大小不一的细瘤,无沟孔、无气囊。

树形调整对香榧成花和坐果的影响

【目的】探究骨干枝数目和开张角度调整对香榧成花坐果的影响,为香榧幼年林树形培养、促进早实丰产提供科学依据。【方法】设置骨干枝数目和骨干枝开张角度的单因素及交互试验,调查处理及对照条件下花果发育规律,统计混合芽比例和坐果率,测定树体光照强度、内源激素含量、光合碳同化物含量、碳氮比等指标。【结果】骨干枝数目调整对香榧树体透光能力影响较大,3骨干枝(N3)和4骨干枝(N4)处理显著增加了树体中层和下层的光照强度,有利于提高光能利用率,明显促进香榧成花坐果;开张角度60°(A60°)处理显著降低了香榧混合芽中生长素(IAA)、赤霉素(GA_(1)和GA_(3))含量,提高了ABA/IAA、ABA/GA_(1+3),CTKs/IAA以及CTKs/GA_(1+3)比值,明显增加了混合芽中光合碳同化物蔗糖、淀粉等含量和C/N比,显著提高了树体混合芽比例;骨干枝数目和骨干枝开张角度的交互处理有效提高了树体的光照强度和净光合速率,3骨干枝60°(N3-A60°)和4骨干枝60°(N4-A60°)处理下中层光照强度达到25000~27000 lux,下层光照强度达到11000~14000 lux,光合速率分别达到9.07和9.70μmol CO_(2)·m^(-2)s^(-1);此外,开张角度60°分别与3和4骨干枝交互处理还明显提高了幼果中赤霉素GAs和部分细胞分裂素的含量,显著促进了果实中蔗糖、总可溶性糖等的积累,明显提高了香榧坐果率。【结论】骨干枝数目和骨干枝开张角度调整均能促进香榧幼年林成花坐果,其中以3和4骨干枝与开张角度60°交互处理效果最佳。