单色光对小麦草营养成分的影响

以小麦草为研究对象,通过LED光照实验,探究不同光质对小麦草营养品质指标(叶绿素含量,可溶性蛋白含量,可溶性糖含量,超氧化物歧化酶(SOD)活性,总酸度,脯氨酸含量)的影响。采用与小麦草光合作用吸收光谱吻合的大功率红、蓝LED灯,红光峰值波长为655 nm,蓝光峰值波长为438 nm,带宽均为30 nm左右,对小麦萌发后幼苗进行为期10天的实验室光照培养箱培养,与日光培养对照,然后测定营养品质指标。除光质为变量外,保持其余生长环境一致,实验结果表明:红光有利于提高小麦草叶绿素含量、可溶性糖含量和SOD活性;蓝光有利于提高可溶性蛋白含量、总酸度含量和脯氨酸含量。通过红光和蓝光照射,有利于改善小麦草的营养品质。     

不同波长光照对罗汉果光合及生长影响

罗汉果试管苗在不同波长的LED(半导体)蓝(475±5nm)、黄(585±5nm)、红(660±5nm)及普通日光灯下培养,25d后观测发现,其外观的优劣依次为:蓝光>白光>红光>黄光;植株重量:蓝光>红光>黄光>白光;蓝光和白光下的植株叶大、色绿,植株矮壮,侧芽多;红光和黄光下的植株叶小、色黄绿,植株高、细、弯曲、节间长。测定罗汉果成熟叶片的吸收光谱,发现在波长380~500nm及660~680nm处有较强吸收。不同的光质下测定成熟叶片光合速率,大小依次为:红光>蓝光>白光>黄光。上述的各项试验表明,蓝光对罗汉果幼苗生长发育最好;红光和蓝光为成熟叶片光合作用的最佳光源。     

自然光照下补照不同光质光对马蹄莲光合速率及生长的影响

刚发芽的马蹄莲除自然光照外,于每日18:00～24:00补照0、2、4和6h的不同光质的光[蓝光:(475±5)nm、黄光:(585±5)nm、红光:(660±5)nm、复合波长的白光].38 d后,补照红、蓝、白光的植株光合速率,从高到低依序为0h>2 h>4h>6h,补照黄光的依序为0h>2h>6h>4h.生长情况以补照6h黄光和2h蓝光的效果最好,补照2h红光或4h白光的次之,补照6h白光和6h蓝光的最差.     

不同光质对白及组培苗生长及光合特性的影响

白及的自然繁殖率极低,组培育苗是其种苗繁殖的主要方式之一。为探索提高白及组培育苗质量及缩短育苗周期的高效人工光环境,该文以紫花白及(Bletilla striata)为试验材料,研究LED光质对白及组培苗的生长和光合特性的影响。结果表明:提高红蓝光组合中的蓝光占比,有利于促进白及组培苗的生长和生物量的积累,而白及的球茎大小与红光的占比呈正相关;在红蓝组光合中增加25%的绿光(2R1B1G),可显著提高白及叶片的叶绿素含量和净光合速率,促进组培苗根系和叶片的生长。综上结果表明,2R1B1G处理下的白及组培苗株高、茎粗、叶绿素含量、净光合速率和根系发育均表现出最佳优势,2R1B1G处理的LED光谱可推荐作为白及组培育苗的光质配方。     

发光二极管光质对念珠藻葛仙米生长及生理生化特性的影响简

利用发光二极管(LED)作为光源,以冷百荧光灯光作为对照,研究不同光质[红光637 nm、绿光529 nm、蓝光453 nm、白光(400—700)nm]对念珠藻葛仙米生长和生理生化特性的影响。结果表明:在培养前期,红光促进藻蓝蛋白合成,而藻红蛋白合成受抑制;蓝光和绿光则促进藻蓝蛋白合成。在培养后期,红光处理有利于叶绿素a和类胡萝卜素积累,其含量分别达到干重的1.33%和0.24%;绿光、白光和冷白荧光培养物的相应色素的含量均约占1.0%和0.16%;蓝光培养物的相应色素含量分别仅为0.45%和0.11%。红光培养物的氨基酸含量达干重的23.1%,是对照的1.58倍。除蓝光外其他光质对还原糖的含量影响无显著差异。在培养过程中LED白光和冷白荧光培养物的平均相对生长速率分别约为其他色光培养物的1.3和1.5倍。     

发光二极管光质对念珠藻葛仙米生长及生理生化特性的影响

利用发光二极管（LED）作为光源,以冷百荧光灯光作为对照,研究不同光质红光637 nm、绿光529 nm、蓝光453 nm、白光（400700） nm对念珠藻葛仙米生长和生理生化特性的影响。结果表明:在培养前期,红光促进藻蓝蛋白合成,而藻红蛋白合成受抑制;蓝光和绿光则促进藻蓝蛋白合成。在培养后期,红光处理有利于叶绿素a和类胡萝卜素积累,其含量分别达到干重的1.33%和0.24%;绿光、白光和冷白荧光培养物的相应色素的含量均约占1.0%和0.16%;蓝光培养物的相应色素含量分别仅为0.45%和0.11%。红光培养物的氨基酸含量达干重的23.1%,是对照的1.58倍。除蓝光外其他光质对还原糖的含量影响无显著差异。在培养过程中LED白光和冷白荧光培养物的平均相对生长速率分别约为其他色光培养物的1.3和1.5倍。       

光照对螺旋藻生长速率的影响

螺旋藻是一种经济价值很高的微藻。针对螺旋藻的高光效性,在不同波长LED灯照射下,研究光照对螺旋藻生长速率的影响。结果表明,在螺旋藻的养殖中,经过红光(650-675 nm)、绿光(522-532 nm)和蓝光(465-475 nm)处理后,获得最大螺旋藻的干物质含量分别为1.232 g/L、1.195 g/L、0.742 g/L;红光处理过的螺旋藻生长速度最快,所得的干物质含量比对照样增加了66.04%。     

不同光质光周期对樱桃萝卜生长发育及营养品质的影响

光质和光周期可以调节植物生长过程中肉质根等地下贮藏器官的形成。该试验以‘昆优2号’樱桃萝卜为试验材料,以白光(W)为对照,研究8R2B、5R5B、2R8B红蓝光配比光质(红蓝光比例分别为8∶2、5∶5、2∶8)与8L/16D、12L/12D、16L/8D光周期(光照/黑暗分别为8 h/16 h、12 h/12 h、16 h/8 h)组合对樱桃萝卜生长发育和营养品质的影响,筛选适合樱桃萝卜生长的光质光周期组合。结果表明:长光照(16L/8D)W、8R2B处理对樱桃萝卜叶片生长、肉质根大小、根冠比都有显著的促进作用,长光照W有利于樱桃萝卜更快形成膨大的肉质根;长光照W、8R2B处理下的樱桃萝卜肉质根多酚含量、抗氧化能力差异不大;长光照W利于樱桃萝卜肉质根可溶性糖、可溶性蛋白积累,长光照8R2B有利于肉质根可溶性蛋白积累。研究发现,适当的光质和光周期组合可显著促进樱桃萝卜叶片生长、肉质根膨大以及根中营养物质的积累,从而获得良好的长势和营养品质,并以长光照(16L/8D即光照/黑暗为16 h/8 h)白光组合最佳。     

光对霍山石斛试管苗光合特性、生长及有效成分积累的影响

以霍山石斛试管苗为材料,研究不同光照对试管苗光合特性、生长及有效成分积累的影响。单因素实验结果显示,最适的光照强度为30μmol·m-2·s-1,光照时间12 h·d-1,光质为红光。多因素实验结果表明,有利于试管苗壮苗的光照条件为红光,光照强度10、20或30μmol·m-2·s-1,光照时间10、12或14 h·d-1;有利于提高其光合作用的光照条件为红光或蓝光,光照强度10、20、30或40μmol·m-2·s-1,光照时间为12 h·d-1;促进多糖合成的光照条件为红光,光照强度30或40μmol·m-2·s-1,光照时间10、12或14 h·d-1;促进生物碱合成的光照条件为红光,光照强度10、20、30或40μmol·m-2·s-1,光照时间为14 h·d-1。     

不同LED光质对金线莲生长的影响

以福建产金线莲（Anoectochilus roxburghii）为材料,研究不同LED光质（红光、黄光、蓝光）对金线莲生长指标以及叶绿素、气孔的影响。结果表明,红光与黄光有利于金线莲株高增长,与对照相比分别提高18.74%、21.47%,但二者处理的植株较为瘦弱,且红光和黄光处理下的植株叶绿素a和叶绿素b含量较低。蓝光处理下金线莲生长情况较好,叶面积与对照相比增长明显,且叶绿素含量相对较高。不同LED光质处理下的植株气孔频度、长度、宽度与对照相比都有一定增长。     

Effects of light flashes on the dark closure of Albizzia julibrissin pinnules

An electronic flash unit is used to deliver, at the beginning of a 10 min dark period and within a few ms, large doses of light to Albizzia julibrissin pinnules, to ascertain their effects on the rate of pinnule closing. In a series of alternating light flashes at 710 and 550 nm, the first 710 nm light flash significantly retards closing. A following light flash at 550 nm negates the far-red induced delay. The second 710 nm light flash delays closing less effectively than the first when given within 4 s after the green flash, but is just as effective when given after 30 s. The delay brought about by the second 710 nm light flash is again abolished by a light flash at 550 nm. A light flash at 660 nm has no effect on pinnule closing by itself and is also ineffective in reversing the far-red induced delay. A series of ten 710 nm light flashes becomes most effective in delaying closure when there is a dark interval of one min between flashes. The closing delay induced by a 710 nm light flash escapes reversal by a 550 nm light flash when the dark interval between the two flashes exceeds 2–3 min. A 750 nm light flash has no retarding effect on pinnule closing, but it becomes effective when preceded by a 660 nm or 550 nm light flash. The results obtained are suggested to be due to light absorbed by phytochrome and an unknown photoreceptor with green, far-red photoreversal property.     

真菌发育过程中的蓝光诱导

本文对多种真菌在发育过程中受蓝光诱导的现象进行了综述。蓝光可以诱导多种真菌的形态发生和发育,包括孢子的产生和菌丝的延伸等。此外,蓝光还可引起真菌的生理和生化改变,如细胞膜对离子的通透性的变化、类胡萝卜素的合成等。真菌也存在一个蓝光信号系统,通过蓝光受体接受蓝光信号,导致了真菌的一系列形态发生和生理生化的变化。     

Aspects of photoinduction of carotenogenesis in the fungus Verticillium agaricinum

An action spectrum for light induced carotenogenesis in Verticillium agaricinum (Link) Corda (ATCC 24668) was obtained by exposing mycelial pads to monochromatic radiation. Action maxima occurred at 290 (main peak) and 390 nm, and there was a minor peak at 483 nm. The results also showed interaction between the blue and UV light. Blue light partly reversed the UV light induction of carotenogenesis when given after, but not when given before UV light. This implies that there are at least two photoreceptors involved in carotenogenesis in Verticillium , but phytochrome is not likely to be one of them.     

Are two photoreceptors involved in the flowering of a long-day plant?

The effect of daylength extension with narrow spectral bands on the flowering of a long-day plant, Brassica campestris L. cv. Ceres, was investigated to obtain clues to the identity of the photoreceptor involved. Extension of a 9 h photoperiod with 5 h of light pulses at various wavelengths resulted in maximal flowering occurring after irradiation at 710 nm, less at 730 nm, and none at 550, 660 and 750 nm. Flowering at 710 and 730 nm was negated by simultaneous exposures at 550 nm, but not at 660 nm. A short preirradiation at 660 nm enabled a following irradiation at 750 nm to induce flowering. This latter induction was prevented by 550 nm irradiation.
Short flashes of light at 710 nm induced flowering that was negated by a following flash at 550 nm but not at 660 nm. The negation by 550 nm radiation was prevented by subsequent flashes at 710 nm, indicating photoreversibility. A flash at 660 nm enabled subsequent light flashes at 750 nm to initiate flowering that was reversed by a following 550 nm flash.
From the results showing the necessity of red and far-red lights, it is proposed that flowering in this long-day plant is due to two photoreceptors - one is phytochrome and the other an unknown pigment with far-red, green photoreversible properties. By using fluence response data, it is deduced that the unidentified photoreceptor has weak absorption bands in the far-red, but has a strong absorption band in the green. Flowering is induced when effects of red light absorbed by phytochrome interact with effects of far-red light absorbed by the unidentified photoreceptor.     

Further support for the involvement of phytoehrome in stomatal movement

The involvement of phytochrome in stomatal movement in Commelina communis L. is indicated by the following observations: 1) Short irradiation with red or blue light causes opening, of isolated stomata and swelling of guard cell protoplasts. This is reversed by subsequent far red irradiation. 2) In a similar way, stomatal response to prolonged irradiation with red or blue light is decreased by concomitant far red irradiation. 3) Pretreatment with filipin, which interferes with phytochrome binding to membranes, decreases stomatal opening in red and blue light. The stomatal responses to blue and red light are modified by DCMU, N₂, CO_2-enriched atmosphere, and CO_2-free air, which are known to affect, among other processes, chlorophyll fluorescence. Increased chlorophyll fluorescence by DCMU, N₂ and CO₂-enriched atmosphere enhanced stomatal opening in blue light and inhibited it in red light. CO₂-free air, which decreases chlorophyll fluorescence, had the opposite effect.     

The effect of SAN 9789 and light on the germination of seeds from Taraxacum vulgare

Photoblastic seeds (achenes) of Taraxacum vulgare coll. were treated with a water solution of SAN 9789, 4-chloro-5 (methylamino) -2- (α,α,α-trifluoro- m -tolyl) -3(2H) pyridazinone. SAN-treatment increased the germination in darkness from 0 to 12%. An irradiation for 5 min with red light, giving a germination of 12% for seeds in water only, gave together with SAN treatment a germination of 60%. In both water and SAN, the effect of red irradiation could be reversed by a short irradiation (15 min) of far-red light. If far-red light was repeatedly given (5 min per h) it had hardly any effect on germination in water (4% germination), but for seeds in SAN solution, intermittent far-red light had a stimulating effect (63% germination). If far-red light was given continuously for 96 h, the germination in water was 1% and in SAN solution 17%. The results in the present paper indicate that SAN may broaden the concentration interval of P_fr for which germination is high.     

Photoregulation of morphogenesis of tobacco plants transformed with the gene of human interlenkin-18

The effects of blue light (BL), green light (GL), and red light (RL) on morphogenesis photoregulation of transgenic tobacco (Nicotiana tabacum L.) plants containing a copy of human interleukin-18 gene were studied. Wild-type and transgenic (Il1 No.87–1 and Il18 No.7–11) lines and derived calluses were used. Photomorphogenesis of transgenic lines under GL and RL differed substantially from that of initial line at early stages of morphogenesis; this was expressed in hypocotyl lengthening under GL and cotyledon enhanced expansion under RL. Growth responses to light quality were related to changes in the levels of zeatin, IAA, and ABA. Thus, hypocotyl lengthening and increased cotyledon area under GL occurred at the elevated level of IAA and reduced level of ABA. Growth of callus cells in transgenic lines during zero passage differed from wild-type calluses only in darkness. The data obtained indicate that tobacco plant transformation with the human interleukin-18 gene changed functioning of the photoregulation systems at early developmental stages. This phenomenon is evidently explained by the pleiotropic effects of the gene inserted.     

光质对水稻幼苗初级氮同化的影响

用滤光膜过滤蓝色或红色荧光灯,得到纯的蓝光和红光,以白光为对照,研究不同光质对水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）幼苗初级氮同化的影响。结果表明：蓝光促进水稻黄化幼苗吸收ＮＯ＾－３含量,并促进ＮＲ（硝酸还原酶）的诱导。在蓝光下生长５￣７ｄ的幼苗的ＮＲ、ＮＩＲ（亚硝酸还原酶）、ＧＳ（谷氨酰胺合成酶）和ＧＯＧＡＴ（谷氨酸合酶）活性均高于白光下生长的,但第１０天以后,白光下生长的幼苗酶活性最高。与白光     

Effects of different light intensities during the forenoon on the afternoon thermal sensation in mild cold

1. 1. The study aimed at knowing whether thermal sensation during afternoon cool exposure could be influenced by bright light (4000 lx) or dim light (200 lx) in the forenoon.

2. 2. The subjects felt cooler after exposure to dim light than to bright light.

3. 3. Melatonin in the urine was significantly higher in bright light than in dim light at 10:30 h and at noon.

     

Adaptational changes in the lipids and fatty acid profile of the cell and thylakoid membrane of rice plants exposed to sunlight

Adaptational changes occurring in the lipids and fatty acids of the cell and the thylakoid membrane in response to high light treatment, was studied in 30 days old rice (Oryza sativa L. cv. Jyothi) plants grown under low (150–200 μmol m⁻² s⁻¹) or moderate (600–800 μmol m⁻² s⁻¹) light conditions. Results were compared with rice plants grown in high (1200–2200 μmol m⁻² s⁻¹) light conditions. Exposure of rice plants and isolated chloroplast to high light, resulted in an increase in the amount of malonaldehyde, indicating oxidation of membrane lipids. Qualitative and quantitative changes in the phosphoglycolipids and quantitative changes in neutral lipids were observed in rice plants grown under the different growth conditions. A few of the phosphoglycolipids and neutral lipids were present exclusively in plants grown at low or moderate or high light, indicating requirement of different type of lipid composition of rice plants in response to their different growth irradiances. However, no significant quantitative changes were observed in the different saturated and unsaturated fatty acid groups of total lipids in low, moderate and high light grown rice plants, as a result of exposure to high light. No qualitative changes in the fatty acid composition due to difference in growth irradiance or high light treatment were seen. The changes observed in the phosphoglycolipids and neutral lipid composition of cell and thylakoid membrane of low, moderate and high light grown rice plants in response to high light, are probably the result of physiological changes in the rice plants, to sustain optimum structure and function of the cell and thylakoid membrane to maintain active physiological functions to endure high light conditions.