Leaf gas exchange characteristics and water- and nitrogen-use efficiencies of dominant grass and tree species in a West African savanna

In this research, was used four papaya (Carica papaya L.) genotypes: three from the 'Solo ( Sunrise Solo TJ, Sunrise Solo 72/12 and Baixinho de Santa Amália) group and one from the 'Formosa' group (Know-You 01). They were grown in plastic pots containing a sandy-clay-loam soil subjected to pH correction and fertilization, under greenhouse conditions. Throughout the experimental period plants were subjected to periodic irrigation to maintain the soil humitidy around field capacity. The experiment was conducted 73 days after sowing. In all genotypes, leaf gas exchange characteristics were determined. The net photosynthetic rate (A, mumol m-2 s-1 ), stomatal conductance (g s mol m-2 s-1), leaf temperature (T I, 0C) and intercellular carbon dioxide concentration (ci, muL L-1) on the 4th, 5th, 6th, 7th, 8th and 9th leaves from the plant apex were determined. No significant differences were observed for A, g s, c i, or Tl either among the leaves sampled from any of the genotypes. A was positively correlated with g s and in the other hand T I and g s were negatively correlated. The results suggest that, for 73 DAP, all the sampled papaya leaves functioned as sources of organs.

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Photosynthetic traits of five neotropical rainforest tree species: interactions between light response curves and leaf-to-air vapour pressure deficit

Brazilian Archives of Biology and Technology ◽

10.1590/s1516-89132005000600018 ◽

2005 ◽

Vol 48 (5) ◽

pp. 815-824 ◽

Cited By ~ 13

Author(s):

Marcelo Schramm Mielke ◽

Alex-Alan Furtado de Almeida ◽

Fábio Pinto Gomes

Keyword(s):

Gas Exchange ◽

Mathematical Models ◽

Tree Species ◽

Vapour Pressure ◽

Leaf Gas Exchange ◽

Vapour Pressure Deficit ◽

Light Response ◽

Photon Flux ◽

Neotropical Rainforest ◽

Photosynthetic Traits

Measurements of leaf gas exchange at different photosynthetic photon flux density (PPFD) levels were conducted in order to compare the photosynthetic traits of five neotropical rainforest tree species, with a special emphasis on empirical mathematical models to estimate the light response curve parameters incorporating the effects of leaf-to-air vapour pressure deficit (D) on the saturated photosynthetic rate (Amax). All empirical mathematical models seemed to provide a good estimation of the light response parameters. Comparisons of the leaf photosynthetic traits between different species needed to select an appropriate model and indicated the microenvironmental conditions when the data were collected. When the vapour pressure deficit inside the chamber was not controlled, the incorporation of linear or exponencial functions that explained the effects of D on leaf gas exchange, was a very good method to enhance the performance of the models.

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Differential responses between mature and young leaves of sunflower plants to oxidative stress caused by water deficit

Ciência Rural ◽

10.1590/s0103-84782010000600008 ◽

2010 ◽

Vol 40 (6) ◽

pp. 1290-1294 ◽

Cited By ~ 11

Author(s):

Inês Cechin ◽

Natália Corniani ◽

Terezinha de Fátima Fumis ◽

Ana Catarina Cataneo

Keyword(s):

Water Stress ◽

Gas Exchange ◽

Leaf Gas Exchange ◽

Intercellular Co2 Concentration ◽

Leaf Age ◽

Co2 Concentration ◽

Mature Leaves ◽

Young Leaves ◽

Mda Content ◽

Gas Exchange Characteristics

The effects of water stress and rehydration on leaf gas exchange characteristics along with changes in lipid peroxidation and pirogalol peroxidase (PG-POD) were studied in mature and in young leaves of sunflower (Helianthus annuus L.), which were grown in a greenhouse. Water stress reduced photosynthesis (Pn), stomatal conductance (g s), and transpiration (E) in both young and mature leaves. However, the amplitude of the reduction was dependent on leaf age. The intercellular CO2 concentration (Ci) was increased in mature leaves but it was not altered in young leaves. Instantaneous water use efficiency (WUE) in mature stressed leaves was reduced when compared to control leaves while in young stressed leaves it was maintained to the same level as the control. After 24h of rehydration, most of the parameters related to gas exchange recovered to the same level as the unstressed plants except gs and E in mature leaves. Water stress did not activated PG-POD independently of leaf age. However, after rehydration the enzyme activity was increased in mature leaves and remained to the same as the control in young leaves. Malondialdehyde (MDA) content was increased by water stress in both mature and young leaves. The results suggest that young leaves are more susceptible to water stress in terms of gas exchange characteristics than mature leaves although both went through oxidative estresse.

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Divergent phenological and leaf gas exchange strategies of two competing tree species drive contrasting responses to drought at their altitudinal boundary

Tree Physiology ◽

10.1093/treephys/tpy041 ◽

2018 ◽

Vol 38 (8) ◽

pp. 1152-1165 ◽

Cited By ~ 3

Author(s):

Laura Fernández-de-Uña ◽

Ismael Aranda ◽

Sergio Rossi ◽

Patrick Fonti ◽

Isabel Cañellas ◽

...

Keyword(s):

Gas Exchange ◽

Tree Species ◽

Leaf Gas Exchange

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Growth and Leaf Gas Exchange Characteristics in Dalbergia sissoo Roxb. and D. latifolia Roxb. Under Water Deficit

Photosynthetica ◽

10.1023/b:phot.0000040585.31593.38 ◽

2004 ◽

Vol 42 (1) ◽

pp. 157-160 ◽

Cited By ~ 6

Author(s):

M. Ashraf ◽

M.Y. Ashraf ◽

Abdul Khaliq ◽

Eui Shik Rha

Keyword(s):

Gas Exchange ◽

Water Deficit ◽

Leaf Gas Exchange ◽

Dalbergia Sissoo ◽

Gas Exchange Characteristics

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Influence of tree species and compass bearing on insect folivory of nine common tree species in the West African savanna

Journal of Tropical Ecology ◽

10.1017/s0266467404002196 ◽

2005 ◽

Vol 21 (2) ◽

pp. 227-231 ◽

Cited By ~ 12

Author(s):

Sybille B. Unsicker ◽

Karsten Mody

Keyword(s):

Tree Species ◽

Land Surface ◽

Insect Herbivory ◽

West African ◽

Leaf Damage ◽

Tropical Rain Forests ◽

The West ◽

African Savanna ◽

The World ◽

Plant Animal Interactions

Levels of leaf damage due to insect folivory have been investigated in forests of different latitudes all over the world, but most research has concentrated on a few common forest types. Most studies of insect herbivory were conducted in (sub)tropical rain forests (Barone 1998, Basset 1996, Coley 1983, Lowman 1985), or in temperate forests (Landsberg & Ohmart 1989, Lowman & Heatwole 1992). In contrast, little is known about insect folivory of woody plants in tropical savannas (Fowler & Duarte 1991, Marquis et al. 2001, Ribeiro 2003, Stanton 1975), and no such data are available for the West African savanna ecosystem (Andersen & Lonsdale 1990). Savannas cover about 40% of the land surface of Africa and 20% of the world (Scholes & Walker 1993), and savanna trees may host considerable numbers of insects, including many herbivores (Grant & Moran 1986, Mody et al. 2003). Therefore, insect herbivory can be considered a potentially important aspect of plant–animal interactions for vast areas of tropical ecosystems, where it has been studied remarkably rarely so far.

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