Patchy Nitrate Availability Alone Contributes to  Heterogeneous
Responses  in Plant Functions and Chemical Composition
Impacting  Growth

D 2004

Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth

GLOSER, Vít, Richard FERRIERI, Michael THORPE a Colin ORIANS

Základní údaje

Originální název

Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth

Autoři

GLOSER, Vít, Richard FERRIERI, Michael THORPE a Colin ORIANS

Vydání

Portland, OR, USA, 89. ESA annual meeting, s. 180-180, 2004

Nakladatel

Ecological Society of America

Další údaje

Typ výsledku

Stať ve sborníku

Utajení

není předmětem státního či obchodního tajemství

Organizační jednotka

Přírodovědecká fakulta

Klíčová slova anglicky

xylem; vascular architecture; sectoriality

Štítky

sectoriality, vascular architecture, xylem

Příznaky

Mezinárodní význam

Změněno: 2. 12. 2007 20:07, doc. RNDr. Vít Gloser, Ph.D.

Anotace

V originále

Recently, it has been shown that nitrate, one of the most important mineral nutrients supporting plant growth, can stimulate plant transpiration (E) and, consequently, carbon fixation (A). The availability of nitrate, however, can be highly variable in both space and time. Previous research has shown that patchy nutrient availability will generate aboveground heterogeneity in plant growth and chemistry, especially in plants where the movement of solutes from root to shoot is restricted by their vasculature. However, it is unclear whether nitrate itself generates this response when interactions with other nutrients are minimized. Using sunflower and two broadleaf tree species, Acer rubrum and Betula papyrifera, grown in split-root hydroponics chambers, we evaluated restrictions of nitrate movement from selected roots to other parts of the plant using the short-lived radionuclide 13N (t 10 min) in combination with Positron Autoradiography. Additionally, we examined the effects of patchy nitrate availability in both short-term (rates of E and A), and long-term (leaf area, biomass distribution and leaf chlorophyll content) responses of the plants. A comparison of plant parts with and without direct access to nitrate reveals that a higher nitrate supply can lead to higher rates of E and A, larger leaf area, longer leaf lifespan and higher chlorophyll content. Our data suggest that patchy nitrate availability alone can be responsible for heterogeneity in functioning, chemical composition, and shoot development, and is especially pronounced in plants with strong vascular restrictions in the movement of xylem sap. Research supported in part by BNL LDRD and DOE/OBER.

Citovat

GLOSER, Vít, Richard FERRIERI, Michael THORPE a Colin ORIANS. Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth. In 89. ESA annual meeting. Portland, OR, USA: Ecological Society of America, 2004, s. 180.

@inproceedings{567709,
   author = {Gloser, Vít and Ferrieri, Richard and Thorpe, Michael and Orians, Colin},
   address = {Portland, OR, USA},
   booktitle = {89. ESA annual meeting},
   keywords = {xylem; vascular architecture; sectoriality},
   location = {Portland, OR, USA},
   pages = {180-180},
   publisher = {Ecological Society of America},
   title = {Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth},
   year = {2004}
}

TY  - JOUR
ID  - 567709
AU  - Gloser, Vít - Ferrieri, Richard - Thorpe, Michael - Orians, Colin
PY  - 2004
TI  - Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth
PB  - Ecological Society of America
CY  - Portland, OR, USA
KW  - xylem
KW  - vascular architecture
KW  - sectoriality
N2  - Recently, it has been shown that nitrate, one of the most important mineral nutrients supporting plant growth, can stimulate plant transpiration (E) and, consequently, carbon fixation (A). The availability of nitrate, however, can be highly variable in both space and time. Previous research has shown that patchy nutrient availability will generate aboveground heterogeneity in plant growth and chemistry, especially in plants where the movement of solutes from root to shoot is restricted by their vasculature. However, it is unclear whether nitrate itself generates this response when interactions with other nutrients are minimized. Using sunflower and two broadleaf tree species, Acer rubrum and Betula papyrifera, grown in split-root hydroponics chambers, we evaluated restrictions of nitrate movement from selected roots to other parts of the plant using the short-lived radionuclide 13N (t 10 min) in combination with Positron Autoradiography. Additionally, we examined the effects of patchy nitrate availability in both short-term (rates of E and A), and long-term (leaf area, biomass distribution and leaf chlorophyll content) responses of the plants. A comparison of plant parts with and without direct access to nitrate reveals that a higher nitrate supply can lead to higher rates of E and A, larger leaf area, longer leaf lifespan and higher chlorophyll content. Our data suggest that patchy nitrate availability alone can be responsible for heterogeneity in functioning, chemical composition, and shoot development, and is especially pronounced in plants with strong vascular restrictions in the movement of xylem sap. Research supported in part by BNL LDRD and DOE/OBER.
ER  -

GLOSER, Vít, Richard FERRIERI, Michael THORPE a Colin ORIANS. Patchy Nitrate Availability Alone Contributes to Heterogeneous Responses in Plant Functions and Chemical Composition Impacting Growth. In \textit{89. ESA annual meeting}. Portland, OR, USA: Ecological Society of America, 2004, s.~180.

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