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Use of porous tubes for measuring water extraction by roots and simultaneous maintaining of soil water potential in growth chamber experiments

100%

Nosalewicz A., Iijima M., Lipiec J., Krol A.

Acta Agrophysica

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2011

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tom 18

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nr 2[193]

The efficiency of a system based on porous tubes in maintaining soil water potential during water extraction by plants in growth chamber experiment was evaluated. The effect of porous tubes area, soil type and density on water flow through porous tubes as induced by various water potentials was evaluated. The rate of change of soil water potential in response to pressure change depends strongly on the area of ceramic tubes per soil volume. If rapid changes or precise control of soil water potential are needed, the area of ceramic tubes per soil volume should be large. Experiments in which porous tubes are used for maintaining water potential should reach a compromise between plant water demands and permissible disturbance caused by the presence of porous tubes in the soil environment.

2

Differences in drought tolerance between cultivars of field bean and field pea. Morphological characteristics, germination and seedling growth

100%

Grzesiak S., Iijima M., Kono Y., Yamauchi A.

Acta Physiologiae Plantarum

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1997

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tom 19

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nr 3

Different responses among legume species were observed, but the morphological and physiological differences that confer drought resistance or susceptibility are not well explained. The objective of this study was the determination of variation of morphological characteristics within 7 field bean and 4 field pea cultivars as related to drought tolerance. Also differences in the effect of drought on seed germination and seedling growth in 2 field bean and 2 field pea cultivars of different drought tolerances were investigated. The examined cultivars were characterized by variation of certain morphological characteristics regarded as xeromorphic features associated with the ability of plant to survive under drought. The drought resistant cultivars (field bean Gobo and field pea Solara) in comparison with the sensitive ones (field bean Victor and field pea Bareness) were characterized by more favourable relations between the size of the above—ground parts and the size of root, as well as the frequency and size of stomata. Moreover, in the resistant cultivars there was observed, a smaller influence of simulated drought (ψ=−0.6 MPa) on the increase of dry matter of the above-ground parts and of the roots. Also there was smaller influence on the height of seedlings and on the length of lateral roots. The correlation coefficients between the measured characteristics and the values of the drought susceptibility index (DSI) were in most cases statistically not significant, although, on the whole, they were very high. This may be an indication of a relatively high participation of the measured characteristics in the total variation of the drought tolerance in the cultivars. In cultivars regarded as belonging to the group of sensitive ones, a more disadvantageous effect of simulated drought (ψ=−0.6 MPa) on seed germination was observed, especially in the determination of the promptness index (PI).

3

Differences in drought tolerance between cultivars of field bean and field pea

100%

Grzesiak S., Iijima M., Kono Y., Yamauchi A.

Biological Bulletin of Poznań. Supplement

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1997

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tom 34

4

Differences in drought tolerance between cultivars of field bean and field pea. A comparison of drought-resistant and drought-sensitive cultivars

100%

Grzesiak S., Iijima M., Kono Y., Yamauchi A.

Acta Physiologiae Plantarum

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1997

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tom 19

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nr 3

Relatively little research has been conducted to determine different responses to drought among cultivars of the legume species. The objective of this study was to identify differences in seedlings growth, water relations and leaf conductances resulting from drought imposed on two field bean and two field pea cultivars that had been observed to differ in their drought tolerances, and special emphasis was placed on the root system development. Distinct differences between resistant and sensitive cultivars of field bean and field pea became evident in measurements of the characteristics of the lateral root. The drought treatment induced statistically significant decrease in the number of the developed laterals, their total length and dry matter. In the drought resistant cultivars (field bean Gobo and field pea Solara) this reduction was smaller in comparison with sensitive ones (field bean Victor and field pea Bareness). The effect of drought on growth of tap root in the drought resistant and drought sensitive cultivars was smaller and statistically not significant. The results showed that drought resistant cultivars when compared with drought sensitive one would demonstrate less abundance in the above-ground part and greater dimensions of the root system. The measurements of leaf water potential and stomata diffusive resistance measurements indicate that the physiological reasons for the different reactions to drought between the resistant and the sensitive field bean and field pea cultivars may be due to a more effective protection of the level of tissue hydration and due to increase stomata diffusive resistance in the resistant cultivars. During recovery period it has been also demonstrated that in the drought resistant cultivars a tendency exists for a more complete return to the level of the control plants.

5

Discovery of a crocodyliform tooth from the upper Eocene Ergilin Dzo Formation, Mongolia

88%

Iijima M., Tsubamoto T., Tsogtbaatar K., Chinzorig T., Baasankhuu S.

Acta Palaeontologica Polonica

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2019

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tom 64

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nr 4

Although the distribution of Asian crocodyliforms was extended northwards during the Paleocene–Eocene greenhouse world, the fossil record in northern Asia becomes scarce towards the end of the Eocene. We here report the first crocodyliform (an isolated tooth) from the upper Eocene Ergilin Dzo Formation of southeastern Mongolia, the mammalian fauna of which defines the Ergilian Asian Land Mammal Age. The conical non-recurved crown, the near complete root with the central resorption facet, and its late Eocene age suggest the crocodyliform affinity of the tooth. The current finding represents one of the northernmost occurrences of crocodyliforms in the upper Eocene of Asia (paleolatitude ca. 49°30’ N), and demonstrates that SE Mongolia probably met thermal requirements of crocodyliforms during the late Eocene.

Ograniczanie wyników

2 Acta Physiologiae Plantarum

1 Acta Agrophysica

1 Acta Palaeontologica Polonica

1 Biological Bulletin of Poznań. Supplement

5 Iijima M.

3 Grzesiak S.

3 Kono Y.

3 Yamauchi A.

1 Baasankhuu S.

1 Chinzorig T.

1 Krol A.

1 Lipiec J.

1 Nosalewicz A.

1 Tsogtbaatar K.

1 Tsubamoto T.

1 2019

1 2011

3 1997

Use of porous tubes for measuring water extraction by roots and simultaneous maintaining of soil water potential in growth chamber experiments

Differences in drought tolerance between cultivars of field bean and field pea. Morphological characteristics, germination and seedling growth

Differences in drought tolerance between cultivars of field bean and field pea

Differences in drought tolerance between cultivars of field bean and field pea. A comparison of drought-resistant and drought-sensitive cultivars

Discovery of a crocodyliform tooth from the upper Eocene Ergilin Dzo Formation, Mongolia