scholarly journals Alleviation of Plant Stress Precedes Termination of Rich Fen Stages in Peat Profiles of Lowland Mires

Ecosystems ◽  
2019 ◽  
Vol 23 (4) ◽  
pp. 730-740 ◽  
Author(s):  
Ewa Jabłońska ◽  
Dierk Michaelis ◽  
Marlena Tokarska ◽  
Klara Goldstein ◽  
Mateusz Grygoruk ◽  
...  
Keyword(s):  
Plant Stress ◽  
Matter Content ◽  
Plant Functional Groups ◽  
Dry Matter Content ◽  
Leaf Dry Matter Content ◽  
Rich Fen ◽  
Stress Indicator ◽  
Peat Deposits ◽  
Clonal Spread

Abstract Mesotrophic rich fens, that is, groundwater-fed mires, may be long-lasting, as well as transient ecosystems, displaced in time by poor fens, bogs, forests or eutrophic reeds. We hypothesized that fen stability is controlled by plant stress caused by waterlogging with calcium-rich and nutrient-poor groundwater, which limits expansion of hummock mosses, tussock sedges and trees. We analysed 32 European Holocene macrofossil profiles of rich fens using plant functional traits (PFTs) which indicate the level of plant stress in the environment: canopy height, clonal spread, diaspore mass, specific leaf area, leaf dry matter content, Ellenberg moisture value, hummock-forming ability, mycorrhizal status and plant functional groups. Six PFTs, which formed long-term significant trends during mire development, were compiled as rich fen stress indicator (RFSI). We found that RFSI values at the start of fen development were correlated with the thickness of subsequently accumulated rich fen peat. RFSI declined in fens approaching change into another mire type, regardless whether it was shifting into bog, forest or eutrophic reeds. RFSI remained comparatively high and stable in three rich fens, which have not terminated naturally until present times. By applying PFT analysis to macrofossil data, we demonstrated that fens may undergo a gradual autogenic process, which lowers the ecosystem’s resistance and enhances shifts to other mire types. Long-lasting rich fens, documented by deep peat deposits, are rare. Because autogenic processes tend to alleviate stress in fens, high levels of stress are needed at initial stages of rich fen development to enable its long persistence and continuous peat accumulation.

scholarly journals Two Measurement Methods of Leaf Dry Matter Content Produce Similar Results in a Broad Range of Species

2007 ◽  
Vol 99 (5) ◽  
pp. 955-958 ◽  
Author(s):  
M. V. Vaieretti ◽  
S. Diaz ◽  
D. Vile ◽  
E. Garnier
Keyword(s):  
Dry Matter ◽  
Matter Content ◽  
Measurement Methods ◽  
Dry Matter Content ◽  
Leaf Dry Matter Content

scholarly journals Effects of leptin administration on long-term selected fat mice

1997 ◽  
Vol 69 (3) ◽  
pp. 215-225 ◽  
Author(s):  
LUTZ BÜNGER ◽  
WILLIAM G. HILL
Keyword(s):  
Matter Content ◽  
Control Line ◽  
Dry Matter Content ◽  
Genetic Changes ◽  
Term Selection ◽  
Wide Range ◽  
Selection For ◽  
Phosphate Buffered Saline

To assess the role of genetic changes in sensitivity to leptin hormone in contributing to responses to long-term selection for fatness, leptin was administered to a long-term fat selected (F) and a control line (C) of mice. These lines differ almost three fold in their percentage of fat (fat%) at about 15 weeks of age. Treated (T) animals received twice-daily intraperitoneal injections of 5 mg/kg leptin from 91 to 105 days of age; untreated (U) animals received equivolume injections of phosphate-buffered saline. Treated compared with untreated animals in both lines had significantly (P<0·05) lower mean body weight, food intake and fatness at the end of test (fat%: CT 3%, CU 7·4%, FT 14·9%, FU21·1%). The differences in response between the lines [(CT−CU)−(FT−FU)] were all non-significant (P>0·05), however. There was a very wide range of fatness (estimated from dry matter content) among FT animals (3–29%), much higher than in FU (15–31%), CT (0·7–6·4%) and CU (2–15%) animals. While sensitivity to leptin remains in the fat line, response appears to vary among animals at the dose level used.

Growth and chemical composition of carrots as influenced by the time of sowing and harvest

1987 ◽  
Vol 108 (2) ◽  
pp. 459-468 ◽  
Author(s):  
T. Nilsson
Keyword(s):  
Chemical Composition ◽  
Dry Matter ◽  
Sucrose Concentration ◽  
Amino Nitrogen ◽  
Sowing Date ◽  
Matter Content ◽  
Dry Matter Content ◽  
Growing Period ◽  
Long Term Storage

SummaryThe effects of the time of sowing on growth and chemical composition of carrots grown from May to November were studied during 3 years.Delaying sowing for 1 or 2 months after the beginning of May resulted in a reduction in the growth of both roots and foliage and gave roots with lower dry-matter content and glucose/fructose ratio but higher amounts of hexoses, total nitrogen and amino nitrogen in root dry matter. Sowing date had no influence on the concentration of sucrose, phosphorus, potassium, calcium and magnesium in root dry matter up to 137 days from sowing. Carotene decreased only after the last sowing. Sucrose concentration of the roots increased throughout the periods studied irrespective of the time of sowing. The longer the growing period the higher was the sucrose concentration. The concentration of hexoses decreased from the first harvest at 70 days to reach a constant level at about 130 days from sowing.The results did not indicate the presence of a well-defined stage of biochemical maturity in the autumn when carrot roots are expected as most suitable for harvest and subsequent long-term storage.

scholarly journals Оценка хранения лука репчатого в однолетней культуре в Нечерноземной зоне

2020 ◽  
Author(s):  
O.R. Davletbaeva ◽  
M.G. Ibragimbekov ◽  
A.N. Khovrin
Keyword(s):  
Dry Matter ◽  
Storage Temperature ◽  
Matter Content ◽  
Dry Matter Content ◽  
Long Term Storage ◽  
Loss Of Weight ◽  
Standard Cultivar ◽  
Air Circulation ◽  
Preservation Rate

Представлена оценка сохранности сортов, гибридов и новых гибридных комбинаций лука репчатого выращенного в однолетней культуре в условиях Московской области. Лежкость селекционных образцов лука оценивали в период зимнего хранения, учитывали убыль массы, число усохших, пораженных и проросших луковиц. По количеству сохранившихся луковиц и динамике этих показателей оценивали сохранность образцов. Сохранность лука репчатого зависит еще от пригодности данного сорта или гибрида к длительному хранению и его вызревания. Полное вызревание лука характеризуется наличием сухих кроющих чешуй, усыханием листьев и шейки, высоким содержанием сахарозы и моносахаров. Такой лук хранится дольше и меньше поражается болезнями. Один из важных способов сокращения потерь лука репчатого при хранении является соблюдение низкотемпературного режима и соответствующей влажности воздуха. Для лучшей сохранности лука поддерживали температуру в хранилище около 12 С, относительной влажностью воздуха в пределах 75-80. Для этого лук закладывали в хранилище с оборудованными холодильными установками, автоматически регулирующими температуру, влажность и циркуляцию воздуха. Большинство образцов имели сохранность от 28,3 до 71,1, что составило более половины 69,2 изучаемых образцов. Самый низкий показатель сохранности имел образец 652/17 F1 (ШетAN 158 I3) и составил 28,3, также данный образец имел 42,3 проросших луковиц. Лучшую сохранность 95 и 94,6 показали образцы зарубежной селекции F1 Сантеро и F1 Премито (стандарт), при содержании сухого вещества 10,9 и 10,8 соответственно. Также хорошую сохранность среди гибридных комбинаций показал образец 652/2 F1 (Шет Поло I3) 85 с содержанием сухого вещества 10,2, уступив отечественному сорту Форвард (стандарт) на 1,8.An assessment of the safety of cultivars, hybrids and new hybrid combinations of onion grown in an annual culture in the Moscow region is presented. The yield of selected onion samples was evaluated during winter storage, taking into account the loss of weight, the number of dried, affected and sprouted bulbs. The number of preserved bulbs and the dynamics of these indicators were used to assess the safety of samples. The safety of onions depends on the suitability of this variety or hybrid for long-term storage and its aging. Full maturation of onions is characterized by the presence of dry covering scales, drying of leaves and neck, high content of sucrose and monosaccharides. This onion is stored longer and less affected by diseases. One of the important ways to reduce the loss of onions during storage is to observe a low-temperature regime and appropriate humidity. For better preservation of onions, the storage temperature was maintained at about 1-2 C, with a relative humidity of 75-80. To do this, the onion was placed in a storage with equipped refrigeration units that automatically regulate temperature, humidity and air circulation. The majority of samples had a safety of 28.3 to 71.1, which was more than half-69.2 of the studied samples. The lowest preservation rate was for the 652/17 F1 sample (ShetAN 158 I3) and was 28.3, and this sample also had 42.3 sprouted bulbs. The best preservation of 95 and 94.6 were shown by samples of foreign selection F1 Santero and F1 Premito (standard), with a dry matter content of 10.9 and 10.8, respectively. Also, the 652/2 F1 (Shet Polo I3) sample showed good preservation among hybrid combinations 85 with a dry matter content of 10.2, losing to the domestic Forvard (standard) cultivar by 1.8.

Reliability of leaf functional traits after delayed measurements

2020 ◽  
Vol 68 (2) ◽  
pp. 100
Author(s):  
Dinesh Thakur ◽  
Lakhbeer Singh ◽  
Amit Chawla
Keyword(s):  
Leaf Area ◽  
Leaf Traits ◽  
Western Himalaya ◽  
Matter Content ◽  
Dry Matter Content ◽  
Leaf Dry Matter Content ◽  
Leaf Functional Traits ◽  
Temporary Storage ◽  
Delayed Measurements ◽  
Stable Leaf

In this study, the effect of temporary storage (at 4°C) on measurement of leaf traits was tested. We collected leaf samples from 25 species, which represented different functional types in the high altitude vegetation of western Himalaya, to measure leaf area (LA), leaf rehydration, specific leaf area (SLA) and leaf dry matter content (LDMC). Repeated trait measurements were performed for up to 7 days. We found that in all the species, LA increased in initial 24 h of rehydration and thereafter remained stable. Leaf rehydration was found to be sensitive to delayed measurements and changed significantly for up to 7 days. For SLA and LDMC, the effect of storage time was significant only for a few species. On the basis of our findings, we recommend that, for samples stored in dark at 4°C, LA, SLA and LDMC can reliably be estimated after a delay of up to 7 days. Further, these key leaf traits should be estimated only after 24 h of rehydration. Also, trait measurements after prolonged rehydration of leaves should be avoided. Outcomes of this study will be beneficial when a large number of samples are collected from locations far away from laboratory and temporary storage is necessitated before trait measurements.

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