Effects of the habitat-soil factor on transgenerational plasticity in a diaspore-polymorphic cold desert annual

Juanjuan Lu; Lu Gan; Dunyan Tan; Carol C. Baskin; Jerry M. Baskin

doi:10.1007/s11104-020-04792-x

Effects of the habitat-soil factor on transgenerational plasticity in a diaspore-polymorphic cold desert annual

Juanjuan Lu
, Lu Gan
, Dunyan Tan
, Carol C. Baskin
, Jerry M. Baskin

Producción científica: Article › revisión exhaustiva

3 Citas (Scopus)

Resumen

Aims: We determined effects of soil from three habitats differing in physiochemical properties on transgenerational plasticity in diaspore production of the diaspore-polymorphic annual Ceratocarpus arenarius. Methods: Production of three disapore morphs and size of F₀ plants in a sand desert (S) were evaluated. F₁ plants from morphs at soil surface (a) and middle (c) and upper (f) parts of canopy of F₀ plants were grown in soil from S, salt desert (SD) and desert steppe (DS) and evaluated for diaspore production and plant size. Results: Number of dispersal unit morphs for F₀ plants in S was (f > c)> > a. Plants from all three morphs varied in size, mass and mass allocation. For F₁ plants (compared to F₀), a:(c + f) was the same or increased in S (poor soil) and decreased in DS (good soil); c:(a + f) increased in S and DS; and f:(a + c) decreased in S and DS. In SD, ratios for F₁ plants from a and c were the same as those in S, but ratios for F₁ plants from f were the same as those in S and DS. Conclusions: Differences in soil physiochemistry caused flexibility in plant size, mass and mass allocation and proportion of diaspore morphs across generations.

Idioma original	English
Páginas (desde-hasta)	355-367
Número de páginas	13
Publicación	Plant and Soil
Volumen	461
N.º	1-2
DOI	https://doi.org/10.1007/s11104-020-04792-x
Estado	Published - abr 2021

Nota bibliográfica

Publisher Copyright:
© 2021, The Author(s), under exclusive licence to Springer Nature Switzerland AG part of Springer Nature.

Financiación

This research was supported in part by the Program for the National Natural Science Foundation of China (grant numbers U1803331, 31660122 and 32071668) and the Tianshan Innovative Research Team of Xinjiang Uygur Autonomous Region of China (grant number 2018D14010). We thank Associate Professor Hongqi Wu, Professor Hongtao Jia and Professor Jiandong Sheng for advice on procedures for determining soil physicochemical properties and the National Meteorological Information Center of China Meteorological Administration for providing the temperature data. This research was supported in part by the Program for the National Natural Science Foundation of China (grant numbers U1803331, 31660122 and 32071668) and the Tianshan Innovative Research Team of Xinjiang Uygur Autonomous Region of China (grant number 2018D14010). We thank Associate Professor Hongqi Wu, Professor Hongtao Jia and Professor Jiandong Sheng for advice on procedures for determining soil physicochemical properties and the National Meteorological Information Center of China Meteorological Administration for providing the temperature data.

Financiadores	Número del financiador
National Meteorological Information Center, China Meteorological Administration
Tianshan Innovative Research Team of Xinjiang Uygur Autonomous Region of China	2018D14010
National Natural Science Foundation of China (NSFC)	U1803331, 32071668, 31660122

ASJC Scopus subject areas

Soil Science
Plant Science

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title = "Effects of the habitat-soil factor on transgenerational plasticity in a diaspore-polymorphic cold desert annual",

abstract = "Aims: We determined effects of soil from three habitats differing in physiochemical properties on transgenerational plasticity in diaspore production of the diaspore-polymorphic annual Ceratocarpus arenarius. Methods: Production of three disapore morphs and size of F0 plants in a sand desert (S) were evaluated. F1 plants from morphs at soil surface (a) and middle (c) and upper (f) parts of canopy of F0 plants were grown in soil from S, salt desert (SD) and desert steppe (DS) and evaluated for diaspore production and plant size. Results: Number of dispersal unit morphs for F0 plants in S was (f > c)> > a. Plants from all three morphs varied in size, mass and mass allocation. For F1 plants (compared to F0), a:(c + f) was the same or increased in S (poor soil) and decreased in DS (good soil); c:(a + f) increased in S and DS; and f:(a + c) decreased in S and DS. In SD, ratios for F1 plants from a and c were the same as those in S, but ratios for F1 plants from f were the same as those in S and DS. Conclusions: Differences in soil physiochemistry caused flexibility in plant size, mass and mass allocation and proportion of diaspore morphs across generations.",

keywords = "Amphi-basicarpic annual, Ceratocarpus, Diaspore polymorphism, Phenotypic plasticity, Rainfall-unpredictable desert environment, Soil physicochemical properties",

author = "Juanjuan Lu and Lu Gan and Dunyan Tan and Baskin, \{Carol C.\} and Baskin, \{Jerry M.\}",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Nature Switzerland AG part of Springer Nature.",

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doi = "10.1007/s11104-020-04792-x",

language = "English",

volume = "461",

pages = "355--367",

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T1 - Effects of the habitat-soil factor on transgenerational plasticity in a diaspore-polymorphic cold desert annual

AU - Lu, Juanjuan

AU - Gan, Lu

AU - Tan, Dunyan

AU - Baskin, Carol C.

AU - Baskin, Jerry M.

PY - 2021/4

Y1 - 2021/4

N2 - Aims: We determined effects of soil from three habitats differing in physiochemical properties on transgenerational plasticity in diaspore production of the diaspore-polymorphic annual Ceratocarpus arenarius. Methods: Production of three disapore morphs and size of F0 plants in a sand desert (S) were evaluated. F1 plants from morphs at soil surface (a) and middle (c) and upper (f) parts of canopy of F0 plants were grown in soil from S, salt desert (SD) and desert steppe (DS) and evaluated for diaspore production and plant size. Results: Number of dispersal unit morphs for F0 plants in S was (f > c)> > a. Plants from all three morphs varied in size, mass and mass allocation. For F1 plants (compared to F0), a:(c + f) was the same or increased in S (poor soil) and decreased in DS (good soil); c:(a + f) increased in S and DS; and f:(a + c) decreased in S and DS. In SD, ratios for F1 plants from a and c were the same as those in S, but ratios for F1 plants from f were the same as those in S and DS. Conclusions: Differences in soil physiochemistry caused flexibility in plant size, mass and mass allocation and proportion of diaspore morphs across generations.

AB - Aims: We determined effects of soil from three habitats differing in physiochemical properties on transgenerational plasticity in diaspore production of the diaspore-polymorphic annual Ceratocarpus arenarius. Methods: Production of three disapore morphs and size of F0 plants in a sand desert (S) were evaluated. F1 plants from morphs at soil surface (a) and middle (c) and upper (f) parts of canopy of F0 plants were grown in soil from S, salt desert (SD) and desert steppe (DS) and evaluated for diaspore production and plant size. Results: Number of dispersal unit morphs for F0 plants in S was (f > c)> > a. Plants from all three morphs varied in size, mass and mass allocation. For F1 plants (compared to F0), a:(c + f) was the same or increased in S (poor soil) and decreased in DS (good soil); c:(a + f) increased in S and DS; and f:(a + c) decreased in S and DS. In SD, ratios for F1 plants from a and c were the same as those in S, but ratios for F1 plants from f were the same as those in S and DS. Conclusions: Differences in soil physiochemistry caused flexibility in plant size, mass and mass allocation and proportion of diaspore morphs across generations.

KW - Amphi-basicarpic annual

KW - Ceratocarpus

KW - Diaspore polymorphism

KW - Phenotypic plasticity

KW - Rainfall-unpredictable desert environment

KW - Soil physicochemical properties

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JO - Plant and Soil

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Effects of the habitat-soil factor on transgenerational plasticity in a diaspore-polymorphic cold desert annual

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