饥饿和再投喂对日本黄姑鱼代谢率和消化器官组织学的影响   总被引：6，自引：2，他引：6  

楼宝  SHI Hui-lai  史会来  骆季安  毛国民  辛俭  郑代明 《海洋渔业》2007,29(2):140-147

采用封闭式呼吸仪测定日本黄姑鱼(8.14±1.07 g)在饥饿和恢复投喂过程中的耗氧率;用石蜡切片法观察和分析饥饿和再投喂对日本黄姑鱼消化器官形态结构和组织学的影响。结果表明:随着饥饿时间的延长,其耗氧率逐渐降低;恢复投喂之后,其耗氧率开始逐步上升。从组织结构看,食道无明显变化,而胃、肠和肝胰脏则随着饥饿时间的延长出现不同程度的损伤;饥饿5 d组无明显变化,而饥饿15 d组变化明显,表现为胃腺细胞收缩,皱壁和上皮细胞高度减少,分泌颗粒减少,肠胃绒毛退化,肝组织致密,肝细胞内脂滴减少,胰腺泡缩小,排列不规则;饥饿10 d组介于饥饿5 d组和饥饿15 d组之间,再投喂各主要结构均有恢复。  相似文献   

饥饿和补偿生长对史氏鲟幼鱼摄食、生长和体成分的影响   总被引：18，自引：8，他引：18  

高露姣 《水产学报》2004,28(3):279-284

报道了饥饿和再投喂对史氏鲟幼鱼摄食、生长以及生化组成的影响.22±2℃条件下,随着饥饿时间延长,幼鱼白肌的RNA/DNA比值不断减小,体重逐渐下降,后者与同期对照组之间存在极显著性差异(P<0.01).饥饿7d,鱼的肝糖原和肌糖原含量显著降低(P<0.05),但随着饥饿时间的延长,肝糖原和肌糖原含量则出现不同程度的回升;脂肪含量和蛋白质含量分别在饥饿14d和21d时下降幅度最大,提示史氏鲟幼鱼动用储存物质的顺序依次是糖原、脂肪和蛋白质.而饥饿过程中鱼体水分和灰分含量则有所上升.恢复投食后,饥饿幼鱼的摄食强度增大,生长加快,其中7d、14d饥饿组幼鱼的RNA/DNA比值达到或接近正常投喂组水平,但21d饥饿组的比值仍明显低于正常投喂组(P<0.05).恢复投食30d后,7d和14d饥饿组幼鱼体重接近对照组(P>0.05),21d饥饿组的终体重未能赶上对照组(P<0.05),这表明史氏鲟幼鱼的补偿生长随饥饿时间不同而异.试验结束时,各处理组鱼体生化组成与正常投喂组没有显著差异(P>0.05).  相似文献   

Hepatocellular adaptation to extreme nutritional conditions in ide,Leuciscus idus melanotus L. (Cyprinidae). A morphofunctional analysis     

Helmut Segner  Thomas Braunbeck 《Fish physiology and biochemistry》1988,5(2):79-97

The adaptive response of the omnivorous ide,Leuciscus idus melanotus, to drastic metabolic conditions was analyzed on different levels of organisation investigating a variety of parameters: Organism (condition factor, liver-somatic index), organ (liver structure), cellular and subcellular level (hepatocyte structure, glycogen and lipid storage, contents and distribution of nucleic acids, enzyme alterations).During starvation, ide were able to maintain liver integrity in a biphasic process: after an initial phase of disturbance, ide established a new structural and metabolic homeostasis. Recovery from starvation was possible only with a complete diet but not with a sucrose diet. Carbohydrate overload, as evoked by sucrose refeeding, did not result in liver or carcass fattening as known from mammals.To the best of our knowledge, the present study is the first to use enzyme histochemistry in fish nutrition research. In mammals, histochemistry is particularly helpful for understanding processes of hepatic metabolic adaptation. In fish, however, on the basis of our results, enzyme histochemical studies appear to be of limited value, as long as no further data are available on a zonal distribution of enzyme activities in teleost liver parenchyma. Instead, the histochemical detection of the distribution of hepatic storage products and RNA-positive material yielded important information on liver adaptive processes.Abbreviations H starvation - SU sucrose - AD artificial diet - AcP acid phosphatase - G6Pase glucose-6-phosphatase - G6PDH glucose-6-phosphate dehydrogenase - GLU -glucuronidase - ME malic enzyme - PHO glycogen phosphorylase - UE unspecific esterase - RER rough endoplasmic reticulum  相似文献   

美国红鱼继饥饿后的补偿生长及其机制   总被引：61，自引：8，他引：61  

姜志强 《水产学报》2002,26(1):67-72

对两种不同规格 (8.2 5± 0 .5 0g ,4 0 .4 1± 2 .4 5g)的美国红鱼分别在 18～ 2 0℃和 2 0～ 2 4℃条件下进行了不同饥饿时间处理后再恢复投喂实验。在实验的 30d内 ,两次实验结果均表现为饥饿 5d组的美国红鱼生长略快于对照组 ,而饥饿 10d和 15d的鱼在相同的时间内 ,体重的增加量未能赶上对照组。各组间生长虽有差别 ,但都未达到显著水平。饥饿使鱼体水分、灰分含量增加 ,脂肪含量下降 ,蛋白质含量变化不大 ,但各成分从恢复投喂到实验结束时又恢复到对照组水平。各组间摄食量随饥饿时间延长而逐步下降 ,而饵料转换效率逐步上升。随着饥饿时间的延长 ,标准代谢率下降 ,而在恢复投喂之后又逐步回升至对照组水平。结果表明 ,美国红鱼的补偿生长效应主要是由降低标准代谢和提高食物转化率实现的  相似文献   

Temporal changes in plasma thyroid hormone,growth hormone and free fatty acid concentrations,and hepatic 5′-monodeiodinase activity,lipid and protein content during chronic fasting and re-feeding in rainbow trout (Oncorhynchus mykiss)     

K. J. Farbridge  J. F. Leatherland 《Fish physiology and biochemistry》1992,10(3):245-257

Temporal changes in growth, plasma thyroid hormone, cortisol, growth hormone (GH) and non-esterified fatty acid (NEFA) concentrations, hepatic T₃ content and hepatic 5-monodeiodinase activity were measured in rainbow trout (Oncorhynchus mykiss) subjected to a sustained fast for up to eight weeks, and during a four-week re-feeding period. The purpose of the study was to examine aspects of the endocrine control of energy partitioning processes characteristic of short-term (acute; fasting) and long-term (chronic; starvation) food-deprivation states in fish, and to explore the role of the thyroid hormones, cortisol and GH in the energy repartitioning that takes place during an acute anabolic (re-feeding) state following chronic food deprivation.Differences in growth rate between fed and fasted groups were evident after two weeks, but significant weight loss by the fasted groups was not evident until between four and six weeks into the fast. Hepatosomatic indices (HSIs) were significantly reduced in the fasted fish within seven days, and as early as two days in one study; recovery of the HSI in fasted fish was evident within three days of re-feeding. Liver protein content (expressed as % wet weight) was consistently depressed in the fasted fish in only one of the three studies. Liver total lipid content (expressed as % wet weight) was depressed in the fasted fish within two days of food deprivation. Because of the rapid and sustained decrease in the HSI of fasted fish, the hepatic total protein and lipid reserves, when considered on a body weight basis, were markedly lowered within the first few days of the fast. Plasma GH concentrations exhibited a bi-modal pattern of change, with a transient fall in levels, followed by a sustained increase in fasted fish. The indicators of interrenal activity were suggestive of a depressed pituitary-interrenal axis in fasted animals; plasma cortisol levels were elevated to levels of fed animals within one day of re-feeding. The indicators of thyroid hormone economy (plasma thyroid hormone levels, liver triiodothyronine content, hepatic 5-monodeiodinase (MD) activity, thyroid epithelial cell height) were similarly indicative of a depressed pituitary-thyroid axis in fasted animals, with recovery to levels of the fed animals within one week. Despite the compensatory changes in accumulation of reserves (as indicated by a compensatory increase in HSI), there were no apparent compensatory changes in any of the endocrine parameters evident during the re-feeding period.  相似文献   

饥饿和再投喂对美国红鱼消化器官组织学的影响   总被引：23，自引：2，他引：23       下载免费PDF全文

李霞  姜志强  谭晓珍  贾泽梅 《中国水产科学》2002,9(3):211-214

用石蜡切片方法观察和分析饥饿和再投喂对美国红鱼(Sciaenopsocellatus)消化器官形态结构和组织学的影响。鱼样体重(8.25±0.5)g,体长(8.84±0.27)cm。从形态结构看,饥饿与再投喂前后食道无明显变化,而饥饿10、15d的实验鱼胃壁变薄,幽门盲囊变小,肠管收缩,呈透明状,肝胰腺萎缩,呈姜黄色,胆管呈深绿色。从组织结构看,食道无明显变化;饥饿时间不同,各组织受损害和恢复程度不同。饥饿5d的实验鱼基本同对照组;而饥饿10、15d的实验鱼组织变化较明显:皱襞和上皮细胞高度均减少,分泌颗粒减少。胃腺细胞收缩,结构不完整;幽门盲囊长度和直径变小;肠直径变小,微绒毛退化;肝组织致密,肝细胞内脂滴减少,体积缩小;胰腺泡缩小,排列不规则。再投喂各主要结构均有所恢复,有些恢复到饥饿前水平,但大部分未能达到。  相似文献   

GmPHR1, a Novel Homolog of the AtPHR1 Transcription Factor,Plays a Role in Plant Tolerance to Phosphate Starvation     

LI Xi-huan WANG Yun-jie WU Bing KONG You-bin LI Wen-long CHANG Wen-suo ZHANG Cai-ying 《中国农业科学(英文版)》2014,(12):2584-2593

  相似文献   

黑莓鲈（Pomoxis nigromacufatus）仔鱼饥饿试验及 PNR 的确定     

秦志清 《福建省农科院学报》2014,(12):1167-1173

为确定黑莓鲈仔鱼的饥饿耐受能力及死亡不可逆点（PNR）,采用实验生态学方法研究饥饿对黑莓鲈仔鱼摄食、生长与发育的影响。结果表明,在19．5～22．8℃水温条件下：①黑莓鲈仔鱼在6日龄开口摄食,8日龄卵黄囊消失,其混合营养期仅维持2 d 左右,属于易遭受饥饿胁迫鱼类;②仔鱼最高初次摄食率出现在9日龄,初次摄食期仔鱼的 PNR 发生在孵化后第11～12 d,仔鱼具有摄食能力的时间仅4～5 d,且在到达 PNR 后仅1 d 多即全部死亡,其耐受饥饿的能力较差;③在饥饿胁迫条件下的仔鱼对卵黄囊和油球的吸收进程明显慢于正常投喂组仔鱼,且随着饥饿程度的不断加深,仔鱼的生长发育趋于停滞甚至出现负增长;仔鱼在 PNR 期出现胸角,并且表现出一系列明显的由饥饿所导致的形态和行为学特征。  相似文献   

饥饿对斜带石斑鱼肝脏和肌肉脂肪酸组成的影响   总被引：4，自引：0，他引：4  

林黑着  刘永坚  何建国  郑文晖  李卓佳  田丽霞 《南方水产》2006,2(4):1-6

在室外水泥池(4m×1.5m×1m)进行石斑鱼(62.3±0.6g)的饥饿实验,每池放养35尾,设3个重复,实验时间分别为0、1、2、3和4周。随着饥饿时间的延长,体重减轻,肥满度和肝体比显著降低;肌肉水分显著增加而蛋白质含量显著下降(P<0.05),脂肪含量在第1周下降后基本保持稳定。肝脏饱和脂肪酸在饥饿前3周基本保持不变,第4周显著下降。单不饱和脂肪酸在饥饿第1周保持不变,然后呈下降趋势。多不饱和脂肪酸和高不饱和脂肪酸的总和随着饥饿时间的延长,含量显著增加。与肝脏相比,肌肉中脂肪酸变化程度较小。随着饥饿时间的延长,肌肉中140减少而205增加。饥饿使肌肉中DHA/EPA比率呈下降趋势,但肝脏DHA/EPA比率显著上升;肌肉和肝脏中DHA EPA的百分比都随饥饿时间的延长而显著上升。  相似文献   

Dark induced senescence as a tool in breeding wheat for optimum senescence pattern   总被引：1，自引：0，他引：1  

N.N. Saulescu  G. Ittu  P. Mustatea 《Euphytica》2001,119(1-2):205-209

Senescence can influence: (1) leaf area duration, (2) area of transpiringtissue and (3) translocation of nutrients – mainly nitrogen to grain.Therefore, selection for optimum senescence pattern might be efficient forimproving performance of wheat in a given environment. This study wasconducted to investigate the feasibility of a seedling test for estimatinggenotypic differences in senescence rate of wheat. We studied the responseof several wheat genotypes to dark exposure of seedlings, by measuring therate of chlorophyll loss in the first leaf. The rate of chlorophyll loss variedsignificantly among genotypes, the highest rate being more than double ofthe lowest. Linear regression accounted for most of the chlorophyll contentvariation during dark treatment in all cultivars. Significant correlation wasfound between the rate of chlorophyll loss following exposure to darknessand chlorophyll loss during aging in an environment relatively free ofdiseases and stresses. A good correlation was also found between theresponse of several genotypes to dark exposure and chlorophyll loss ofseedlings following starvation. We conclude that a seedling test for darkinduced senescence might allow an easy characterization of senescencepattern, allowing increased genetic progress in its optimization.  相似文献