Dustin F. Haines scite author profile

Despite the crucial role of carbon transport in whole plant physiology and its impact on plant-environment interactions and ecosystem function, relatively little research has tried to examine how phloem physiology impacts plant ecology. In this review, we highlight several areas of active research where inquiry into phloem physiology has increased our understanding of whole plant function and ecological processes. We consider how xylem-phloem interactions impact plant drought tolerance and reproduction, how phloem transport influences carbon allocation in trees and carbon cycling in ecosystems and how phloem function mediates plant relations with insects, pests, microbes and symbiotes. We argue that in spite of challenges that exist in studying phloem physiology, it is critical that we consider the role of this dynamic vascular system when examining the relationship between plants and their biotic and abiotic environment.

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Perennial vegetation data from permanent plots on the Nevada Test Site, Nye County, Nevada

Webb¹,

Murov²,

Esque³

et al. 2003

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provided information on Beatley's career and legacy in Ohio. We especially thank Mary Killeem of the University of Cincinnati for supplying us with Dr. Beatley's final curriculum vitae. Alan Flint of the U.S. Geological Survey supplied the 10-m digital elevation model depicted in Figure 1. Peter G. Griffiths produced the geographical information system graphics used in this report. The report was critically reviewed by W.

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Joshua tree (Yucca brevifolia) seeds are dispersed by seed-caching rodents

Wall¹,

Esque

Haines

et al. 2006

Ecoscience

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Desert Tortoise Hibernation: Temperatures, Timing, and Environment

Nussear

Esque

Haines³

et al. 2007

Copeia

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The making of giant pumpkins: how selective breeding changed the phloem of Cucurbita maxima from source to sink

Savage

Haines

Holbrook

2015

Plant Cell & Environment

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Despite the success of breeding programmes focused on increasing fruit size, relatively little is known about the anatomical and physiological changes required to increase reproductive allocation. To address this gap in knowledge, we compared fruit/ovary anatomy, vascular structure and phloem transport of two varieties of giant pumpkins, and their smaller fruited progenitor under controlled environmental conditions. We also modelled carbon transport into the fruit of competitively grown plants using data collected in the field. There was no evidence that changes in leaf area or photosynthetic capacity impacted fruit size. Instead, giant varieties differed in their ovary morphology and contained more phloem on a cross-sectional area basis in their petioles and pedicels than the ancestral variety. These results suggest that sink activity is important in determining fruit size and that giant pumpkins have an enhanced capacity to transport carbon. The strong connection observed between carbon fixation, phloem structure and fruit growth in field-grown plants indicates that breeding for large fruit has led to changes throughout the carbon transport system that could have important implications for how we think about phloem transport velocity and carbon allocation.

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Dustin F. Haines

Allocation, stress tolerance and carbon transport in plants: how does phloem physiology affect plant ecology?

Perennial vegetation data from permanent plots on the Nevada Test Site, Nye County, Nevada

Joshua tree (Yucca brevifolia) seeds are dispersed by seed-caching rodents

Desert Tortoise Hibernation: Temperatures, Timing, and Environment

The making of giant pumpkins: how selective breeding changed the phloem of Cucurbita maxima from source to sink

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