Degree of shade tolerance shapes seasonality of chlorophyll, nitrogen and phosphorus levels of trees and herbs in a temperate deciduous forest

Forest productivity is closely linked to seasonal variations and vertical differentiation in leaf traits.However,leaf structural and chemical traits variation among co-existing species,and plant functional types within the canopy are poorly quantified.In this study,the seasonality of leaf chlorophyll,nitrogen(N),and phosphorus(P)were quantified vertically along the canopy of four major tree species and two types of herbs in a temperate deciduous forest.The role of shade tolerance in shaping the seasonal variation and vertical differentiation was examined.During the entire season,chlorophyll content showed a distinct asymmetric unimodal pattern for all species,with greater chlorophyll levels in autumn than in spring,and the timing of peak chlorophyll per leaf area gradually decreased as shade tolerance increased.Chlorophyll a:b ratios gradually decreased with increasing shade tolerance.Leaf N and P contents sharply declined during leaf expansion,remained steady in the mature stage and decreased again during leaf senescence.Over the seasons,the lower canopy layer had significantly higher chlorophyll per leaf mass but not chlorophyll per leaf area than the upper canopy layer regardless of degree of shade tolerance.However,N and P per leaf area of intermediate shade-tolerant and fully shade-tolerant tree species were significantly higher in the upper canopy than in the lower.Seasonal variations in N:P ratios suggest changes in N or P limitation.These findings indicate that shade tolerance is a key feature shaping inter-specific differences in leaf chlorophyll,N,and P contents as well as their seasonality in temperate deciduous forests,which have significant implications for modeling leaf photosynthesis and ecosystem production.

CONTRACTED EFFECT OF BELL-SHADE SHAPE WELDING ARC AND ACCOMPANIED MAGNETIC FIELD WITH SPIRAL PIPE SHAPE

ＣＯＮＴＲＡＣＴＥＤＥＦＦＥＣＴＯＦＢＥＬＬＳＨＡＤＥＳＨＡＰＥＷＥＬＤＩＮＧＡＲＣＡＮＤＡＣＣＯＭＰＡＮＩＥＤＭＡＧＮＥＴＩＣＦＩＥＬＤＷＩＴＨＳＰＩＲＡＬＰＩＰＥＳＨＡＰＥ①ＹｕＪｉａｎｒｏｎｇ，ＺｈａｎｇＪｉａｙｉｎｇ，ＪｉａｎｇＬｉｐｅｉ，...

女性主义翻译理论视域下Dance of the Happy Shades李玉瑶汉译本研究

Dance of the Happy Shades是加拿大作家艾丽斯·门罗的成名作,该部描写女性题材的短篇小说集历时15年完成于1968年出版,荣获加拿大最高文学奖项——总督奖。目前,我国有部分学者从图里翻译规范理论出发对Dance of the Happy Shades进行了汉译本对比研究,而从女性主义翻译理论出发的研究有待拓展。本文以李玉瑶汉译本为研究对象,从女性主义翻译理论视域出发,探讨女性译者如何在翻译中体现女性主义翻译意识,从而帮助读者进一步理解原著。

Diff erences in pigment circadian rhythmicity in greenand red-leafed tree species in the sun and shade

Light fl ux and quality are crucial factor for setting endogenous plant circadian rhythms.Evaluating the daily rhythmicity of leaf chlorophyll content is an eff ective method to monitor the plant physiological endogenous clock in response to environmental signals such as light availability/quality.Here,we used a leaf-clip sensor to monitor diurnal rhythms in the content of chlorophyll and fl avonoids such as fl avonols and anthocyanins in three green-(Ailanthus altissima,Tilia platyphyllos and Platanus×acerifolia)and two red-leafed(Acer platanoides cv.Crimson King and Prunus cerasifera var.pissardii)tree species,adapted to sun(L)or shade(S).Signifi cant diff erences in chlorophyll content(Chl)and its variations during the day were observed among treatments in all the analyzed species.S-plants had more Chl than L-plants irrespective of leaf color,and Chl variations were more distinct during the day than in L-plants.In particular,contents were lowest in the morning(9:00)and in the middle of the day(at 12:00 and 15:00),and the highest at dusk(21:00).The less evident trends in Chl variation in L-plants were attributed to a decrease in Chl content in high light,which likely masked any increases in the shaded counterparts during the afternoon.Daily fl avonol levels did not vary no notably during the day.In sun-exposed red leaves,anthocyanins partially screened mesophyll cells from incident light,and its levels were similar to the Chl dynamics in the shaded counterparts.This study provides new bases for further work on endogenous rhythms of plant pigments and improves our understanding of plant physiology in the context of day/night rhythmicity.

Maize cryptochromes 1a1 and 1a2 promote seedling photomorphogenesis and shade resistance in Zea mays and Arabidopsis

Maize growth and development are regulated by light quality,intensity and photoperiod.Cryptochromes are blue/ultraviolet-A light receptors involved in stem elongation,shade avoidance,and photoperiodic flowering.To investigate the function of cryptochrome 1(CRY1) in maize,where it is encoded by Zm CRY1,we obtained two Zm CRY1a genes(Zm CRY1a1 and Zm CRY1a2),both of which share the highest similarity with other gramineous plants,in particular rice CRY1a by phylogenetic analysis.In Arabidopsis,overexpression of Zm CRY1a genes promoted seedling de-etiolation under blue and white light,resulting in dwarfing of mature plants.In seedlings of the maize inbred line Zong 31(Zm CRY1aOE),overexpression of Zm CRY1a genes caused a reduction in the mesocotyl and first leaf sheath lengths due to down-regulation of genes influencing cell elongation.In mature transgenic maize plants,plant height,ear height,and internode length decreased in response to overexpression of Zm CRY1a genes.Expression of Zm CRY1a were insensitive to low blue light(LBL)-induced shade avoidance syndrome(SAS) in Arabidopsis and maize.This prompted us to investigate the regulatory role of the gibberellin and auxin metabolic pathways in the response of Zm CRY1a genes to LBL treatment.We confirmed a link between Zm CRY1a expression and hormonal influence on the growth and development of maize under LBL-induced SAS.These results reveal that Zm CRY1a has a relatively conservative function in regulating maize photomorphogenesis and may guide new strategies for breeding high density-tolerant maize cultivars.

A New Flower Pollination Algorithm Strategy for MPPT of Partially Shaded Photovoltaic Arrays

Photovoltaic(PV)systems utilize maximum power point tracking(MPPT)controllers to optimize power output amidst varying environmental conditions.However,the presence of multiple peaks resulting from partial shading poses a challenge to the tracking operation.Under partial shade conditions,the global maximum power point(GMPP)may be missed by most traditional maximum power point tracker.The flower pollination algorithm(FPA)and particle swarm optimization(PSO)are two examples of metaheuristic techniques that can be used to solve the issue of failing to track the GMPP.This paper discusses and resolves all issues associated with using the standard FPA method as the MPPT for PV systems.The first issue is that the initial values of pollen are determined randomly at first,which can lead to premature convergence.To minimize the convergence time and enhance the possibility of detecting the GMPP,the initial pollen values were modified so that they were near the expected peak positions.Secondly,in the modified FPA,population fitness and switch probability values both influence swapping between two-mode optimization,which may improve the flower pollination algorithm’s tracking speed.The performance of the modified flower pollination algorithm(MFPA)is assessed through a comparison with the perturb and observe(P&O)method and the standard FPA method.The simulation results reveal that under different partial shading conditions,the tracking time for MFPA is 0.24,0.24,0.22,and 0.23 s,while for FPA,it is 0.4,0.35,0.45,and 0.37 s.Additionally,the simulation results demonstrate that MFPA achieves higher MPPT efficiency in the same four partial shading conditions,with values of 99.98%,99.90%,99.93%,and 99.26%,compared to FPA with MPPT efficiencies of 99.93%,99.88%,99.91%,and 99.18%.Based on the findings from simulations,the proposed method effectively and accurately tracks the GMPP across a diverse set of environmental conditions.

不同遮荫方式对茄衣烟叶生长和光合生理的影响

【目的】探明不同遮荫方式对雪茄茄衣鲜烟叶生长和光合生理特性的影响。【方法】对遮阳网颜色(绿色、黑色、白色)、遮光率(40%、60%、80%)和遮荫时间(移栽后20、25、30 d)进行正交L_(9)(3^(4))设计,测定遮荫后烟株的农艺性状、叶绿素含量、荧光参数和光合生理指标,分析与光合相关基因的表达情况,并对测定的指标进行显著性分析和极差分析。【结果】(1)遮阳网颜色是影响农艺性状的主要因素,而影响光合生理的因素排序为遮光率>遮阳网颜色>遮荫时间。(2)遮荫后白色遮阳网促进了茄衣烟叶生长;总叶绿素含量随遮光率的增加而增加;实际光化学效率(ΦPSⅡ)、叶绿素潜在活性(F_(v)/F_(o))、光化学淬灭系数(qP)和最大光化学效率(F_(v)/F_(m))在高遮光率下显著提升,但非光化学淬灭系数(qN)显著下降;净光合速率(P_n)、气孔导度(G_(s))和蒸腾速率(T_(r))均下降,在80%遮光率下达到最小,而胞间CO_(2)浓度(C_(i))在80%遮光率下显著增加;编码光系统Ⅱ中捕光复合物叶绿素a/b结合蛋白4.2的基因(Lhcb4.2)和编码光系统Ⅱ中反应中心蛋白CP47的基因(psbB)表达量在80%遮光率下显著增加,编码光系统Ⅱ中捕光复合物叶绿素a/b结合蛋白6的基因(Lhcb6)在60%遮光率下显著增加,编码光系统Ⅱ中D2蛋白的基因(psbD)在80%遮光率下表达量比不遮荫处理低,而1,5-二磷酸核酮糖羧化/加氧酶小亚基基因(rbcS)和编码光系统Ⅱ中D1蛋白的基因(psbA)无明显变化。【结论】遮荫处理改变了光质和光强,影响了编码光合作用有关蛋白的基因表达,从而影响烟叶的光合作用,遮荫后不同程度地加快了叶绿素的积累和光合作用效率,且在80%遮光率处理下影响最大。

Photoinhibition in Shaded Cotton Leaves After Exposing to High Light and the Time Course of Its Restoration

Chlorophyll fluorescence emission, pigment composition and photosynthetic rate of shade-grown cotton ( Gossypium hirsutum L.) plants were measured immediately after suddenly exposing to full sunlight and at regular intervals there after within 15 d. Photoinhibition occurred in shade-grown cotton leaves immediately after exposed to full sunlight. The chlorophyll fluorescence parameter F-v/F-m and PhiPS II, which reflect the efficiency of PS II,obviously decreased in shade-grown leaves, much lower than that of the full sunlight-grown leaves. On the contrary, F-o value was sharply increased. Neither of these parameters could completely recover till next morning. The photoinhibition was chronic and continued for about 4 d, while the F-v/F-m and the net photosynthetic rate ( P-n) continued to decline, then began to increase gradually 6 d later and turned stable after 10 - 12 d, appearing as an acclimation phenomenon. However, the final value of F-v/F-m and P-n did not reach the level as in those leaves grown in the full sunlight ever before. The final P-n was higher by 60% than that before exposure, but lower for more than 40% than that of the full sunlight-grown leaves. The most notable response of chloroplast pigment composition was a pronounced increase in the pool size of carotenoids in xanthophyll cycle over a period of 3 d. The results indicated that when shade-grown cotton seedlings were suddenly transferred to the full sunlight, the decline of F-v/F-m and P-n might associate with the damage of the PS II reaction center. During the light acclimation, photoprotective mechanisms such as the xanthophyll cycle-dependent energy dissipation were increased, so that photodamage in leaves transferred from low to high light might be reduced.

X-Rite’s ShadeVision System与Vitapan Classical比色板的匹配性分析

目的X-Rite’sShadeVision System和Vitapan Classical比色板的匹配性。方法采用X-Rite’sShadeVision System对Vitapan Classical比色板进行测色。结果X-Rite’s ShadeVision System测量结果排序与原排序一致,排列差异最大有6个色片的差距。相邻比色板的色差ΔEab参差不齐,最大的色差6.92,而最小的色差只有1.21。结论X-Rite’s ShadeVision System与Vitapan Classical比色板不完全匹配。

遮荫对景宁玉兰幼苗生理生化季节变化的影响

以2年生景宁玉兰Yulania sinostellata幼苗为研究对象,通过遮阳网设置自然光强的100%(I_(100))、40%(I_(40))和10%(I_(10))3种遮荫处理,探讨不同遮荫处理下景宁玉兰生理生化特性的季节变化规律。结果表明:(1)景宁玉兰幼苗的净光合速率(P_(n))春季为I_(100)处理显著高于I_(40)、I_(10)处理(P<0.05),夏、秋季为I_(40)处理显著高于I_(100)、I_(10)处理(P<0.05)。I_(100)、I_(40)处理的P_(n)在夏季显著高于春、秋季(P<0.05),而I_(10)处理的P_(n)在夏季则显著低于春、秋季(P<0.05)。(2)3个季节的叶绿素(Chl)含量均随着遮荫强度的增加而增加,而类胡萝卜素/叶绿素(Car/Chl)值随着遮荫强度的增加而下降。3种遮荫处理的叶绿素、类胡萝卜素含量均以春季最高,叶绿素a/b(Chla/b)、Car/Chl值均以夏季最大。(3)春、秋季超氧化物歧化酶(SOD)活性随着遮荫强度的增加而下降。夏、秋季过氧化物酶(POD)随着遮荫强度的增加而升高,过氧化氢酶(CAT)活性以I_(100)处理较低。3种遮荫处理SOD活性以秋季最高,POD、CAT活性均以春季最高。(4)3个季节的抗坏血酸(As A)含量以I_(10)处理最低。谷胱甘肽(GSH)含量夏季以I_(100)处理最高,秋季以I_(40)处理最高。(5)I_(100)处理夏季的电导率显著高于I_(10)处理(P<0.05),秋季则显著高于I_(40)、I_(10)处理(P<0.05)。3种处理电导率均以秋季最高,春季最低。总之,I_(100)处理的景宁玉兰幼苗在夏、秋季叶绿素含量较低,并且POD、CAT活性较弱,无法有效清除活性氧,致使细胞膜透性增加,叶片受到光胁迫。而I_(10)处理由于光强过低使得光合能力弱。因此在栽培过程中,适当遮荫有利于景宁玉兰的生长,但光照强度不应低于40%。

A study on the shade tolerance of Muehlewbeckia complera

Muehlewbeckia complera was introduced to China in 2002 as indoor-hanging ornamental foliage plant. The experiment of the shade tolerance for this species was carried out in different light intensities (0.14–946.00 μmol·m?2·s?1). After 40 days in experimental areas, leaf photosynthentic characteristics indexes ofM. complera in different photosynthesis active radiation (PAR) were measured with LI-COR6400 apparatus, such as the light compensation point, light saturation point, and maximum net photosynthesis rate, at the same time, the increments of total leaf area and leaf amount were measured. The results showed that the optimum light intensity range forM. complera was from 9.26 μmol·m?2·s?1 to 569.00 μmol·m?2·s?1 (463–28150 lx, relative humidity (RH) for 46–60%, temperature at 16–22°C). Under this condition, leaf photosynthetic efficiency was tiptop. AlthoughM. complera belonged to the moderate sun-adaptation plant species, the plant growth was inhibited when PAR increased to the level of 569.000 μmol·m?2·s?1 or above.M. complera could sprout new leaves in photosynthesis active radiation of 0.16–19.22 μmol·m?2·s?1 (8–961 lx), or 10 μmol·m?2·s?1 for above 6 h. Keywords Muehlewbeckia complera - Shade tolerance - Cultivation - Photosynthesis CLC number S602.1 Document code A Foundation item: This study was supported by the Research Foundation of Northeast Forestry University.Biography: YUE Hua (1962-), female, Associate professor in Northeast Forestry University, Harbin 150040, P. R. China.Responsible editor: Zhu Hong

Maximum Power Point Tracking Technology for PV Systems: Current Status and Perspectives

Maximum power point tracking(MPPT)technology plays a key role in improving the energy conversion efficiency of photovoltaic(PV)systems,especially when multiple local maximum power points(LMPPs)occur under partial shading conditions(PSC).It is necessary to modify the operating point efficiently and accurately with the help of MPPT technology to maximize the collected power.Even though a lot of research has been carried out and impressive progress achieved for MPPT technology,it still faces some challenges and dilemmas.Firstly,the mathematical model established for PV cells is not precise enough.Second,the existing algorithms are often optimized for specific conditions and lack comprehensive adaptability to the actual operating environment.Besides,a single algorithm may not be able to give full play to its advantages.In the end,the selection criteria for choosing the suitable MPPT algorithm/converter combination to achieve better performance in a given scenario is very limited.Therefore,this paper systematically discusses the current research status and challenges faced by PV MPPT technology around the three aspects of MPPT models,algorithms,and hardware implementation.Through in-depth thinking and discussion,it also puts forward positive perspectives on future development,and five forward-looking solutions to improve the performance of PV systems MPPT are suggested.

Probabilistic Global Maximum Power Point Tracking Algorithm for Continuously Varying Partial Shading Conditions on Autonomous PV Systems

A photovoltaic (PV) string with multiple modules with bypass diodes frequently deployed on a variety of autonomous PV systems may present multiple power peaks under uneven shading. For optimal solar harvesting, there is a need for a control schema to force the PV string to operate at global maximum power point (GMPP). While a lot of tracking methods have been proposed in the literature, they are usually complex and do not fully take advantage of the available characteristics of the PV array. This work highlights how the voltage at operating point and the forward voltage of the bypass diode are considered to design a global maximum power point tracking (GMPPT) algorithm with a very limited global search phase called Fast GMPPT. This algorithm successfully tracks GMPP between 94% and 98% of the time under a theoretical evaluation. It is then compared against Perturb and Observe, Deterministic Particle Swarm Optimization, and Grey Wolf Optimization under a sequence of irradiance steps as well as a power-over-voltage characteristics profile that mimics the electrical characteristics of a PV string under varying partial shading conditions. Overall, the simulation with the sequence of irradiance steps shows that while Fast GMPPT does not have the best convergence time, it has an excellent convergence rate as well as causes the least amount of power loss during the global search phase. Experimental test under varying partial shading conditions shows that while the GMPPT proposal is simple and lightweight, it is very performant under a wide range of dynamically varying partial shading conditions and boasts the best energy efficiency (94.74%) out of the 4 tested algorithms.

SHADE协调机制在亚丁湾、索马里海域护航中的作用

"信息共享与防止冲突"(简称SHADE)这一军事协调会议为国际社会开展多边合作实施海上护航提供了平台。通过梳理SHADE协调机制产生的背景及运作方式,并以第14次工作会议为例,分析了SHADE这一国际协调机制在打击索马里海盗、维护海上航行安全中的作用,同时指出了其存在的不足。

冬季遮阳网茶园昆虫趋色性及其群落结构分析

茶园建设固定遮阳网可助力干旱时节抗旱和冬季防冻,但茶园病虫害也常发。目前,有关固定遮阳网茶园昆虫群落缺乏研究。以浙江松阳县建有的固定遮阳网茶园为对象,冬季采用13种颜色的诱虫色板每隔10 d依次对5块遮阳网茶园内昆虫进行诱捕,统计24 h内捕获的种数和个体数。结果共捕获6个目37个科的2940个昆虫(蜘蛛);诱捕量最多的为双翅目,种数、个体数分别占总物种数、总个体数的29.7%和69.5%;聚类分析将13种色板中的荧光绿、芽绿、米黄、土黄、橘黄、草绿、荧光黄和素馨黄色板聚为一类,每种色彩的每块板平均诱捕的物种数和个体数分别是(19.4±2.4)种和(286.9±55.4)个;墨绿、大红、天蓝、土褐和纯白5种色板聚为一类,每种色彩的每块板平均诱捕的物种数和个体数分别是(11.8±3.3)种和(129.0±36.4)个;主要害虫有茶小绿叶蝉、茶蚜和黑刺粉虱等,主要天敌是尺蠖原绒茧蜂和单白绵副绒茧蜂。研究认为遮阳网茶园成为主要害虫和重要天敌的越冬庇护场所;芽绿、素馨黄、荧光绿和荧光黄等色板可作为监测茶园虫情的手段之一。

由国际会议SHADE反思海军护航英语教学

"信息共享与防止冲突"(Shared Awareness and De-confliction)这一军事协调会议为国际社会开展多边合作打击索马里海盗提供了平台。通过分析会议期间所采集的语言素材,并结合护航协调人员英语培训班的教学实践,提出护航英语教学的新思路。

Shade stress decreases stem strength of soybean through restraining lignin biosynthesis

Lodging is the most important constraint for soybean growth at seedling stage in maize-soybean relay strip intercropping system.In the field experiments,three soybean cultivars Nandou 032-4(shade susceptible cultivar; B1),Jiuyuehuang(moderately shade tolerant cultivar; B2),and Nandou 12(shade tolerant cultivar; B3) were used to evaluate the relationship between stem stress and lignin metabolism in the stem of soybean.Results showed that the intercropped soybean was in variable light condition throughout the day time and co-growth stage with maize.The xylem area and cross section ratio played a main role to form the stem stress.The B3 both in intercropping and monocropping expressed a high stem stress with higher xylem area,lignin content,and activity of enzymes(phenylalanine ammonia-lyase(PAL),4-coumarate: CoA ligase(4CL),cinnamyl alcohol dehydrogenase(CAD),and peroxidase(POD)) than those of B1 and B2.Among the soybean cultivars and planting pattern,lignin content was positively correlated with stem stress.However,a negative correlation was found between lignin content and actual rate of lodging.In conclusion,the shade tolerant soybean cultivar had larger xylem area,higher lignin content and activities of CAD,4CL,PAL,and POD than other soybean cultivars in intercropping.The lodging in maize-soybean intercropping can be minimized by planting shade tolerant and lodging resistant cultivar of soybean.The lignin content in stem could be a useful indicator for the evaluation of lodging resistance of soybean in intercropping and activities of enzymes were the key factors that influence the lignin biosynthesis.

Shade adaptive response and yield analysis of different soybean genotypes in relay intercropping systems

Soybean is one of the major oil seed crops,which is usually intercropped with other crops to increase soybean production area and yield.However,soybean is highly sensitive to shading.It is unclear if soybean morphology responds to shading（i.e.,shade tolerance or avoidance）and which features may be suitable as screening materials in relay strip intercropping.Therefore,in this study,various agronomic characteristics of different soybean genotypes were analyzed under relay intercropping conditions.The soybean materials used in this study exhibited genetic diversity,and the coefficient of variations of the agronomic parameters ranged from 13.84 to 72.08%during the shade period and from 6.44 to 52.49%during the maturity period.The ratios of shading to full irradiance in stem mass fraction（SMF）were almost greater than 1,whereas opposite results were found in the leaves.Compared with full irradiance,the average stem length（SL）,leaf area ratio（LAR）and specific leaf area（SLA）for the two years（2013 and 2014）increased by 0.78,0.47 and 0.65 under shady conditions,respectively.However,the stem diameter（SD）,total biomass（TB）,leaf area（LA）,number of nodes（NN）on the main stem,and number of branches（BN）all decreased.During the shady period,the SL and SMF exhibited a significant negative correlation with yield,and the SD exhibited a significant positive correlation with yield.The correlation between the soybean yield and agronomic parameters during the mature period,except for SL,the first pod height（FPH）,100-seed weight（100-SW）,and reproductive growth period（RGP）,were significant（P〈0.01）,especially for seed weight per branch（SWB）,pods per plant（PP）,BN,and vegetative growth period（VGP）.These results provide an insight into screening the shade tolerance of soybean varieties and can be useful in targeted breeding programs of relay intercropped soybeans.

The molecular mechanism of shade avoidance in crops--How data from Arabidopsis can help to identify targets for increasing yield and biomass production

In order to prevent or counteract shading,plants enact a complex set of growth and developmental adaptations when they sense a change in light quality caused by other plants in their vicinity.This shade avoidance response（SAR）typically includes increased stem elongation at the expense of plant fitness and yield,making it an undesirable trait in an agricultural context.Manipulating the molecular factors involved in SAR can potentially improve productivity by increasing tolerance to higher planting density.However,most of the investigations of the molecular mechanism of SAR have been carried out in Arabidopsis thaliana,and it is presently unclear in how far results of these investigations apply to crop plants.In this review,current data on SAR in crop plants,especially from members of the Solanaceae and Poaceae families,are integrated with data from Arabidopsis,in order to identify the most promising targets for biotechnological approaches.Phytochromes,which detect the change in light caused by neighboring plants,and early signaling components can be targeted to increase plant productivity.However,they control various photomorphogenic processes not necessarily related to shade avoidance.Transcription factors involved in SAR signaling could be better targets to specifically enhance or suppress SAR.Knowledge integration from Arabidopsis and crop plants also indicates factors that could facilitate the control of specific aspects of SAR.Candidates are provided for the regulation of plant architecture,flowering induction and carbohydrate allocation.Yet to-be-elucidated factors that control SAR-dependent changes in biotic resistance and cell wall composition are pointed out.This review also includes an analysis of publicly available gene expression data for maize to augment the sparse molecular data available for this important species.

Transcriptome and co-expression network analyses provide insights into fruit shading that enhances carotenoid accumulation in pomelo(Citrus grandis)

Carotenoids are indispensable for human health,and citrus fruit are a crucial source of dietary carotenoids.Bagging,an important orchard practice to enhance fruit economic value,is widely used in many horticultural crops,including citrus fruit.The bagged‘Majiayou’pomelo(Citrus grandis)produces vivid deeper red pulp,a fantastic agronomic trait,but the underlying molecular regulatory mechanism remains largely unexplored.Here,the enhancement of carotenoids,especially lycopene,was confirmed by HPLC analysis of carotenoids in the pulp of bagged fruit and controls.qRT-PCR analysis of the 14 carotenoid pathway genes further revealed that upregulated PSY and downregulated CCD1 expression in bagged fruit could directly enhance the accumulation of carotenoids.In addition,RNA-seq analysis identified 311 differentially expressed genes(DEGs)in the bagged fruit and controls in five developmental stages.Weighted gene co-expression network analysis(WGCNA)identified 13 critical candidate genes among the DEGs,which are closely associated with lycopene accumulation.The underlying regulatory mechanism of these candidate genes on the transcription of carotenoid pathway genes in the bagged fruit was discussed.Considering that the candidate genes were involved in the corresponding metabolic pathways,the increase in sucrose content and decrease in ABA in bagged fruit were also identified,implying that these candidate genes may be indirectly related to carotenoid enhancement in pulp by regulating phytohormones,primary metabolism,and stress responses.The results provide new insights into the potential regulatory mechanism of lycopene enhancement in the pulp of bagged‘Majiayou’pomelo,facilitating breeding and orchard management efforts to improve the nutritional quality and esthetic value of citrus,and perhaps other fruit crops.