Nutrient supply has greater influence than sink strength on photosynthetic adaptation to CO2 elevation in white birch seedlings

To investigate the interactive effects of soil temperature (Tsoil) and nutrient supply on the responses of growth and biomass of white birch ( Betula papyrifera Marsh.) to atmospheric carbon dioxide concentration ([CO2]), seedlings were grown under two [CO2] (360 and 720 µmol·mol–1), three Tsoil (5, 15, and 25 °C initially, increased to 7, 17, and 27 °C one month later), and three nutrient regimes (Low: N–P–K = 4:1.8:3.3 mg·L–1; Intermediate: N–P–K = 80:35:66 mg·L–1; and High: N–P–K = 160:70:132 mg·L–1) for 4 months. Low Tsoil reduced leaf and total biomass at high nutrient supply and root biomass at intermediate and high nutrient supply. There were significant three-factor interactive effects on root collar diameter (RCD), stem biomass, and leaf mass ratio. Low Tsoil reduced RCD at high nutrient supply and stem biomass at intermediate and high nutrient supply in elevated [CO2] while intermediate and high Tsoil enhanced them. Values of leaf mass ratio were lowest at low Tsoil and low nutrient supply in elevated [CO2]. The effect of Tsoil was generally insignificant at low nutrient supply, but the responses of growth and biomass remained significantly higher under high than low nutrient supply at all Tsoil.

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Nutrient and [CO2] elevation had synergistic effects on biomass production but not on biomass allocation of white birch seedlings

Forest Ecology and Management ◽

10.1016/j.foreco.2006.07.017 ◽

2006 ◽

Vol 234 (1-3) ◽

pp. 238-244 ◽

Cited By ~ 19

Author(s):

Shouren Zhang ◽

Qing-Lai Dang ◽

Xiaoguang Yü

Keyword(s):

Biomass Production ◽

Biomass Allocation ◽

Synergistic Effects ◽

White Birch ◽

Co2 Elevation

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The effects of nutrient variation and age on the resistance of three winter-dormant white birch species to mammalian herbivores

Canadian Journal of Forest Research ◽

10.1139/x04-109 ◽

2004 ◽

Vol 34 (11) ◽

pp. 2230-2239 ◽

Cited By ~ 3

Author(s):

Jaana Laitinen ◽

Matti Rousi ◽

Jorma Tahvanainen ◽

Heikki Henttonen ◽

Jaakko Heinonen

Keyword(s):

Betula Pendula ◽

Nutrient Status ◽

Nutrient Supply ◽

Good Growth ◽

White Birch ◽

Resistance Response ◽

Mammalian Herbivores ◽

Nutrient Levels ◽

High Nutrient ◽

High Nutrient Supply

In this study, we investigated variation in the resistance of winter-dormant white birch species (Betula resinifera Britt., Betula pendula Roth, and Betula platyphylla Sukatchev var. japonica Hara) at different ontogenetic phases to mountain hares (Lepus timidus L.) and field voles (Microtus agrestis L.). The birches were grown for 4 years in outdoor pots and in a field experiment at different nutrient levels. The species differed in their overall levels of resistance to mountain hares and in their resistance responses at different nutrient levels. The exotic species, B. resinifera and B. platyphylla, were more resistant than the native B. pendula. Variation in resistance to voles between and within species at different fertilizer levels was less pronounced. The resistance response of white birches to hares seems to be related to their ontogeny, as well as to the nutrient status of the soil. At high nutrient supply, young birch seedlings achieve good growth and high resistance, with no tradeoff between growth and resistance, but the effect of fertilization on resistance stabilizes in aging trees. Before we can arrive at any general conclusions about the resistance responses of trees in variable environmental conditions, the effect of ontogeny must be considered, as well as differences between plant genotypes.

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Low soil temperature inhibits the effect of high nutrient supply on photosynthetic response to elevated carbon dioxide concentration in white birch seedlings

Tree Physiology ◽

10.1093/treephys/tpp109 ◽

2009 ◽

Vol 30 (2) ◽

pp. 234-243 ◽

Cited By ~ 14

Author(s):

T. F. Ambebe ◽

Q.-L. Dang ◽

J. Li

Keyword(s):

Carbon Dioxide ◽

Soil Temperature ◽

Carbon Dioxide Concentration ◽

Elevated Carbon Dioxide ◽

Nutrient Supply ◽

Photosynthetic Response ◽

White Birch ◽

High Nutrient ◽

Elevated Carbon Dioxide Concentration ◽

High Nutrient Supply

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Influence of increased nutrient supply on Microcystis aeruginosa at cellular and proteomic levels

Aquatic Microbial Ecology ◽

10.3354/ame01939 ◽

2020 ◽

Vol 85 ◽

pp. 47-58

Author(s):

Y Jiang ◽

Y Liu

Keyword(s):

Microcystis Aeruginosa ◽

Regulatory Protein ◽

Acid Synthesis ◽

Nutrient Supply ◽

Nitrogen Supply ◽

Nitrogen And Phosphorus ◽

Comprehensive Description ◽

Amino Acid Synthesis ◽

High Nutrient ◽

Proteomic Responses

Various studies have observed that increased nutrient supply promotes the growth of bloom-forming cyanobacteria, but only a limited number of studies have investigated the influence of increased nutrient supply on bloom-forming cyanobacteria at the proteomic level. We investigated the cellular and proteomic responses of Microcystis aeruginosa to elevated nitrogen and phosphorus supply. Increased supply of both nutrients significantly promoted the growth of M. aeruginosa and the synthesis of chlorophyll a, protein, and microcystins. The release of microcystins and the synthesis of polysaccharides negatively correlated with the growth of M. aeruginosa under high nutrient levels. Overexpressed proteins related to photosynthesis, and amino acid synthesis, were responsible for the stimulatory effects of increased nutrient supply in M. aeruginosa. Increased nitrogen supply directly promoted cyanobacterial growth by inducing the overexpression of the cell division regulatory protein FtsZ. NtcA, that regulates gene transcription related to both nitrogen assimilation and microcystin synthesis, was overexpressed under the high nitrogen condition, which consequently induced overexpression of 2 microcystin synthetases (McyC and McyF) and promoted microcystin synthesis. Elevated nitrogen supply induced the overexpression of proteins involved in gas vesicle organization (GvpC and GvpW), which may increase the buoyancy of M. aeruginosa. Increased phosphorus level indirectly affected growth and the synthesis of cellular substances in M. aeruginosa through the mediation of differentially expressed proteins related to carbon and phosphorus metabolism. This study provides a comprehensive description of changes in the proteome of M. aeruginosa in response to an increased supply of 2 key nutrients.

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