Journal ArticleDOI
Life history and resource acquisition: Photosynthetic traits in selected accessions of three perennial cereal species compared with annual wheat and rye
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TLDR
It is demonstrated that some perennial cereal species can maintain higher midseason A than their annual crop relatives, and evidence for age-related changes in photosynthetic physiology in a herbaceous perennial plant is found.Abstract:
Premise of the study: Few previous studies have considered how plant age affects photosynthetic physiology in herbaceous perennials or how photosynthetic capacity in annual cereals compares to perennial relatives. Newly developed perennial cereals offer novel systems for addressing these questions. Our study makes a novel contribution by considering how life history differences affect photosynthetic physiology. Methods: In two linked fi eld studies, we evaluated effects of life history and plant age on photosynthetic rates ( A ), and related biochemical, morphological, and water-relations traits, comparing 1- and 2-yr-old cohorts of perennial wheat, intermediate wheatgrass, and perennial rye to close annual relatives (wheat and rye). Key results: Photosynthetic rates ( A ) were 10–50% higher in perennial cereals compared to annuals. In wheatgrass, elevated A was associated with higher carboxylation ( V C ), triose phosphate utilization (TPU) and electron transport rates ( J ), and higher leaf soluble protein and chlorophyll. Younger wheatgrass plants maintained higher A , TPU , J , and V C than older plants did. Perennial wheat and rye differed from annual relatives in some but not all of these parameters. Differences in stomatal limitation were not involved, while differences in stomatal conductance ( g s ) became evident under drier conditions. Conclusions: This study demonstrates that some perennial cereal species can maintain higher midseason A than their annual crop relatives. These changes are not fully explainable by increased access to soil water and may refl ect trade-offs between allocation to reproduction and to resource acquisition. We also found evidence for age-related changes in photosynthetic physiology in a herbaceous perennial plant.read more
Citations
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Journal ArticleDOI
Photosynthesis across African cassava germplasm is limited by Rubisco and mesophyll conductance at steady state, but by stomatal conductance in fluctuating light.
Amanda P. De Souza,Yu Wang,Douglas J. Orr,Elizabete Carmo-Silva,Stephen P. Long,Stephen P. Long +5 more
TL;DR: A cassava leaf metabolic model was developed to quantify the value of overcoming limitations to leaf photosynthesis, pinpointing important overlooked breeding targets for improved photosynthetic efficiency in cassava.
Journal ArticleDOI
Useful insights from evolutionary biology for developing perennial grain crops1
TL;DR: Perennial grain domestication programs will benefit from population subdivision followed by selection for simple traits in each subpopulation, the evaluation of very large populations, high selection intensity, rapid cycling through generations, and heterosis; the latter may be particularly beneficial in the development of varieties with stable yield and tolerance to crowding.
Journal ArticleDOI
Relationship between photosynthetic rate, water use and leaf structure in desert annual and perennial forbs differing in their growth
L. Gonzalez-Paleo,D.A. Ravetta +1 more
TL;DR: The relationship between specific leaf area (SLA) and photosynthesis is not always up-scalable to growth when comparing multiple species with different life cycles as mentioned in this paper, however, the relationship between SLA and photosynthetic performance is often up-to-scaling to growth.
Journal ArticleDOI
Toward improving photosynthesis in cassava: Characterizing photosynthetic limitations in four current African cultivars.
TL;DR: Except for the cultivar TMS 30572, photosynthesis in cassava showed a triose phosphate utilization (TPU) limitation at high intercellular [CO 2], which would not limit photosynthesis rates under current conditions, but without modification would be a barrier to increasing photosynthetic efficiency to levels predicted possible in this crop.
Journal ArticleDOI
Back to perennials: Does selection enhance tradeoffs between yield and longevity?
TL;DR: Evidence of a tradeoff between current and future reproduction is found, responsible for a decrease in yield with age, in selected accessions of Physaria mendocina.
References
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Journal ArticleDOI
Photosynthetic Rates of Two Species of Malvaceae, Malvaviscus arboreus var. drummondii (Wax Mallow) and Abutilon theophrasti (Velvetleaf)
O. W. Van Auken,J. K. Bush +1 more
TL;DR: Maximum-photosynthetic-rate values and levels of light at maximum photosynthetic rate suggest that M. arboreus var.
Journal Article
Leaf gas exchange and fluorescence of two teosinte species: Zea mays ssp. parviglumis and Z. diploperennis.
TL;DR: This study compared the leaf blade characteristics, pigment composition, photosystem II (PSII) photochemistry, and photosynthetic rates (P) of a multi-stemmed annual and a perennial teosinte species growing in a glasshouse under analogous nutritional and environmental conditions to show similar chlorophyll contents and ratios.