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Effect of salt on growth of rice landraces in Vietnam

100%

Anh L. H., Hue H. T., Quoc N. K., Nghia L. T., Trung K. H., Trung T. N., Trang D. H., Xuan T. D., Khanh T. D.

International Letters of Natural Sciences

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2016

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tom 59

2

Effects of shock loads of salt on protozoan communities of activated sludge

100%

Salvado H., Mas M., Menendez S., Gracia P.

Acta Protozoologica

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2001

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tom 40

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nr 3

3

Assessment of plant growth-promoting stress-tolerant endophytes screened from Bougainvillea glabra for the growth of Triticum aestivum L. and Zea mays

84%

Karnwal A.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

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2020

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tom 101

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nr 1

4

Effective microorganisms impact on photosynthetic activity of Arabidopsis plant grown under salinity stress conditions

84%

Kalaji H. M., Cetner M. D., Samborska I. A., Lukasik I., Oukarroum A., Rusinowki S., Pietkiewicz S., Swiatek M., Dabrowski P.

Annals of Warsaw University of Life Sciences - SGGW. Land Reclamation

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2016

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tom 48

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nr 2

5

Abscisic acid-responsive proteins induce salinity tolerance in wheat seedlings

84%

El-Enany A. E.

Acta Physiologiae Plantarum

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2000

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tom 22

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nr 1

6

Drought and salinity tolerances of young Jatropha

67%

Fujimaki H., Kikuchi N.

International Agrophysics

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2010

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tom 24

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nr 2

121-127

7

The effect of salinity, mycorrhizal inoculation and compost supply on growth and flowering of mealycup sage ‘Blue Victory’ (Salvia farinacea BENTH)

67%

Nowak J., Kunka M.

Zeszyty Problemowe Postępów Nauk Rolniczych

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2009

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tom 539

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nr 2

Badania prowadzono w celu określenia, czy inokulacja grzybami tworzącymi mikoryzę arbuskularną (AMF) i stosowanie kompostu poprawi tolerancyjność szałwii omszonej na NaCl, CaCl2 i Na2CO3. Rośliny nieinokulowane i inokulowane AMF uprawiano w podłożu bez kompostu i w podłożu wzbogaconym w kompost i traktowano NaCl, CaCl2 i Na2CO3 w stężeniu 0, 11,68 i 23,36 g∙dm-3. Traktowanie NaCl nieznacznie obniżało suchą masę i znacznie hamowało wzrost elongacyjny pędów, opóźniało kwitnienie szałwii oraz obniżało procent zasiedlenia korzeni przez grzyby mikoryzowe. Traktowanie CaCl2 wpływało niekorzystnie na suchą masę roślin inokulowanych i uprawianych w podłożu z dodatkiem kompostu, ale nie wpływało na wysokość roślin, termin kwitnienia i liczbę kwiatostanów. Traktowanie Na2CO3 obniżało suchą masę szałwii inokulowanej AMF i uprawianej w podłożu z dodatkiem kompostu. Wpływ Na2CO3 na wysokość roślin i liczbę kwiatostanów był niewielki. Mikoryzacja nie wpływała korzystnie na wzrost i kwitnienie szałwii. Dodatek kompostu poprawiał wszystkie parametry wzrostu roślin i zwiększał liczbę kwiatostanów, niezależnie od traktowania roślin solami i inokulacji AMF. Najbardziej szkodliwe dla wartości dekoracyjnej szałwii okazały się traktowania NaCl i Na2CO3 w stężeniu 23,36 g∙dm-3, powodujące nekrozę liści. Traktowanie Na2CO3 w stężeniu 23,36 g∙dm-3 powodowało pojawianie się brązowych plam na liściach dolnych. Zarówno mikoryzacja, jak i dodatek kompostu, stosowane oddzielnie, nie zapobiegały ujemnemu oddziaływaniu testowanych soli na jakość liści szałwi omączonej. Liście szałwii inokulowanej AMF i uprawianej w podłożu z dodatkiem kompostu i podlewanej roztworami CaCl2 lub Na2CO3 w stężeniu 23,36 g∙dm-3 nie miały nekroz i brązowych plam.

8

The effect of osmopriming on proline metabolism in germinating rape (Brassica napus L.) seeds under salinity stress

67%

Kubala S., Wojtyla L., Mikolajczyk M., Lechowska K., Garnczarska M.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

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2013

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tom 94

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nr 3

9

Enhancement of salt tolerance via glomus geosporum inoculation in Telfairia occidentalis Hook. F. seedlings

67%

Okon O. G., Eneh G. D. O., Uboh G. D., Uyon P. P.

International Letters of Natural Sciences

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2019

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tom 76

The leafy vegetable Telfairia occidentalis is a tropical vine grown in West Africa; it is indigenous to Southern Nigeria and is usually subjected to extreme salt stress in Southern Nigeria as well as in the world that results in significant loss of T. occidentalis production. Therefore, the present investigation was aimed at evaluating the response of T. occidentalis seedlings inoculated with arbuscular mycorrhizal fungi (Glomus geosporum) in saline soil and further to determine the threshold of T. occidentalis salinity tolerance in association with G. geosporum. The total photosynthetic pigments contents in saline soil treatment were significantly (p=0.05) reduced as well as percentage arbuscular mycorrhizal fungi colonization (53.97 to 22.41%). Mycorrhizal dependency was significantly (p=0.05) higher in saline soil treatments compared to control (100.00% to 15.13%). Mineral analysis of T. occidentalis leaves revealed increased uptake and accumulation of Na⁺ (500.00 mg/kg in control to 2920.13 mg/kg in saline soil treatment). Saline soil treatments significantly (p=0.05) reduced the K, Mg, N, P and Ca. AM Fungi significantly (p=0.05) increased the photosynthetic pigments and minerals both in saline and non-saline soil treatments. Using different mechanisms T. occidentalis by association with G. geosporum showed better salt tolerance thank the uninoculated plants. G. geosporum was able to impose some physiological and root morphological changes such as an extensive network of the mycorrhizal-plant roots to improve water and mineral nutrient uptake. Physiologically G. geosporum inoculation enriched T. occidentalis vigour, attuned the rate of K⁺/Na⁺ which restored nutrient and water balance in the plant and directly resulting in the enhancement of salt tolerance in T. occidentalis seedlings, thus improving growth and yield.

10

Tolerance of Paramysis lacustris and Limnomysis benedeni (Crustacea, Mysida) to sudden salinity changes: implications for ballast water treatment

67%

Ovcarenko I., Audzijonyte A., Gasiunaite Z. R.

Oceanologia

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2006

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tom 48

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nr S

In order to draw implications for ballast water management, we tested the tolerance of two Ponto-Caspian mysid species Paramysis lacustris and Limnomysis benedeni to sudden salinity changes. The naturally stenohaline P. lacustris was more susceptible to higher salinities; its mortality rate at 19 PSU was 60%, whereas exposure to 23 PSU was 100% lethal. The euryhaline L. benedeni survived in salinities of up to 19 PSU, but experienced 100% mortality at 34 PSU. The return of both mysid species to fresh water after the 24 h exposure to higher salinities did not prevent further mortality. Considering the rather high short-term salinity tolerance of both species, a salinity of at least 30 PSU should be used as an appropriate biocide.

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Influence of salinity on growth and organic compounds content of carrot (Daucus carota L.)

59%

Shiyab S., Al-Qarallah B., Akash M.

Acta Scientiarum Polonorum. Hortorum Cultus

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2019

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tom 18

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nr 6

Carrot production of valuable carotenes, carbohydrate and protein are hindered by elevated salinity levels in many parts of the world. To assess this problem, germination and growth of two carrot cultivars (Daucus carota cvs Jordan and Napoli) were studied in vivo and in vitro under different salt stress concentrations (0, 75, and 150 mM NaCl). Seeds were directly or gradually exposed to these salt concentrations. With elevated salinity levels, significant reductions in growth parameters (dry shoot weight, fresh shoot weight, shoot length, root length, and root number) were observed. Also, significant difference in germination percentage was observed at 150 mM NaCl in both cultivars when compared with control treatment (90% germination percentage in Napoli and 71% in Jordan cultivar). Growth rate, tolerant index, and relative water content (RWC) declined as salinity increased. The 150 mM NaCl salinity treatment significantly reduced the shoot chlorophyll and protein content, but increased carbohydrate content. Lesser impairment by the gradual exposure of seedling to salinity provides an opportunity to study the acquirement of salt tolerance.

Ograniczanie wyników

Effect of salt on growth of rice landraces in Vietnam

Effects of shock loads of salt on protozoan communities of activated sludge

Assessment of plant growth-promoting stress-tolerant endophytes screened from Bougainvillea glabra for the growth of Triticum aestivum L. and Zea mays

Effective microorganisms impact on photosynthetic activity of Arabidopsis plant grown under salinity stress conditions

Abscisic acid-responsive proteins induce salinity tolerance in wheat seedlings

Drought and salinity tolerances of young Jatropha

The effect of salinity, mycorrhizal inoculation and compost supply on growth and flowering of mealycup sage ‘Blue Victory’ (Salvia farinacea BENTH)

The effect of osmopriming on proline metabolism in germinating rape (Brassica napus L.) seeds under salinity stress

Enhancement of salt tolerance via glomus geosporum inoculation in Telfairia occidentalis Hook. F. seedlings

Tolerance of Paramysis lacustris and Limnomysis benedeni (Crustacea, Mysida) to sudden salinity changes: implications for ballast water treatment

Influence of salinity on growth and organic compounds content of carrot (Daucus carota L.)