Recent developments in understanding mast seeding in relation to dynamics of carbon and nitrogen resources in temperate trees

Han, Qingmin; Kabeya, Daisuke

doi:10.1007/s11284-017-1494-8

Cited by 47 publications

(48 citation statements)

References 100 publications

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“…On the basis of the extended field network and survey of airborne pollen, we provide original and robust results supporting this 'resource-driven pollen limitation' hypothesis. Our results are in line with previous studies that pointed out the role of resource limitation in masting species, including oaks (Rapp et al 2013;Pesendorfer et al 2016), which suggest that flower and pollen production depend on the level of nitrogen reserve that fluctuates before and after a massive fruiting event (Sala et al 2012;Han et al 2014;Miyazaki et al 2014;Abe et al 2016), even if the limiting resource for pollen and fruit production remain controversial (Ichie et al 2013;Pearse et al 2016;Han & Kabeya 2017).…”

Section: Discussionsupporting

confidence: 93%

Pollen limitation as a main driver of fruiting dynamics in oak populations

et al. 2018

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In many perennial wind‐pollinated plants, the dynamics of seed production is commonly known to be highly fluctuating from year to year and synchronised among individuals within populations. The proximate causes of such seeding dynamics, called masting, are still poorly understood in oak species that are widespread in the northern hemisphere, and whose fruiting dynamics dramatically impacts forest regeneration and biodiversity. Combining long‐term surveys of oak airborne pollen amount and acorn production over large‐scale field networks in temperate areas, and a mechanistic modelling approach, we found that the pollen dynamics is the key driver of oak masting. Mechanisms at play involved both internal resource allocation to pollen production synchronised among trees and spring weather conditions affecting the amount of airborne pollen available for reproduction. The sensitivity of airborne pollen to weather conditions might make oak masting and its ecological consequences highly sensitive to climate change.

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Section: Discussionsupporting

confidence: 93%

Pollen limitation as a main driver of fruiting dynamics in oak populations

et al. 2018

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“…Differing from Ichie et al, (), several studies showed that reproduction in masting species did not depend on stored carbon reserves (Hoch, Siegwolf, Keel, Körner, & Han, ; Igarashi, Shibata, Masaki, Tayasu, & Ichie, ). Reproduction in beech does not deplete stored carbohydrates, but it does change the amount of nitrogen stored (Han & Kabeya, ; see also Han, Kabeya, Iio, Inagaki, & Kakubari, ; Miyazaki et al, ), and masting in F . crenata is well explained by the interplay between stored nitrogen and climatic cues (Abe et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…Nitrogen may have indirect effects on seed production through bio‐assimilation in Q. crispula , because in Quercus species, photosynthetic activity increases as the leaf nitrogen content increases (Takashima, Hikosaka, & Hirose, ). Our limited knowledge about carbohydrate–nitrogen interactions (Allen et al, ; Han & Kabeya, ) and the variation of carbon storage in relation to masting request further researches on the resource dynamics of masting.…”

Section: Discussionmentioning

confidence: 99%

Decadal changes in masting behaviour of oak trees with rising temperature

et al. 2020

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Decadal changes in masting behaviour—directional changes in seed production with fluctuations on a decadal time‐scale—are attracting widespread attention in the context of global climate change. However, our mechanistic understanding of the effects of climate on seed production on a decadal scale is unsatisfactory, partly because of the insufficient statistical analyses of long‐term data on masting. We detected decadal changes in masting behaviour in the Japanese oak Quercus crispula based on long‐term data (38 years: 1980–2017) from the Kitakami Mountains of Japan. The moving average of seed production in a 20‐year sliding window increased, whereas the coefficient of variation decreased. A wavelet power spectrum, as well as a second‐order log‐linear autoregressive (AR) model showed that masting intervals shortened from 3‐ or 4‐year cycle to a 2‐year cycle. The moving average of seed production increased linearly as the moving average of temperature increased. Temporal variations of the two AR model coefficients as a function of temperature were well described by concave curves. Synthesis. By conducting the statistical analyses of a long‐term seed production dataset, we obtained significant evidence of decadal changes in the masting behaviour of the Japanese oak and showed that the shortening of the masting interval was associated with rising temperature. A resource allocation shift and an environmental veto were discussed as possible mechanisms underlying the decadal change.

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“…These results are consistent with many studies indicating some level of resource limitation in masting species. Recent reviews (Crone and Rapp , Han and Kabeya ) analyzed resource depletion across many species and found several limiting variables (e.g., nutrients, structural carbohydrates) in some species, but not in others. These studies described the relative roles (important to insignificant) of plant nutrient availability and reserves for masting species, particularly phosphorus (Sala et al.…”

Section: Discussionmentioning

confidence: 99%

Environmental and endogenous drivers of tree mast production and synchrony in piñon–juniper–oak woodlands of New Mexico

et al. 2018

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Abstract. Tree masting (synchronous, episodic reproduction) is common worldwide and is hypothesized to be especially important in ecosystems with low species diversity and productivity as in semi-arid woodlands of the American Southwest. We analyzed mast dynamics of three dominant tree species, one-seed juniper (Cupressaceae: Juniperus monosperma), two-needle piñon pine (Pinaceae: Pinus edulis), and Sonoran scrub oak (Fagaceae: Quercus turbinella), on six sites during 1997-2016 within the Sevilleta National Wildlife Refuge, New Mexico. We tested multiple hypotheses regarding environmental and endogenous variables as controlling mechanisms, analyzing time-series mast production data in relation to weather variables (precipitation, temperature, relative humidity, vapor pressure deficit, wind) over different time frames, and assessed evidence for weather tracking, resource switching, resource depletion, resource cycling, and pollen limitation. We found that (1) in univariate regression analyses, mast production in all three species was inversely related to lagged late-summer/autumn temperatures during fruit primordia formation (1-yr lag for juniper and oak, 2-yr lag for piñon pine). Juniper mast production (n = 412 trees) was positively related to current-year late-winter (February-April) precipitation, combined with a negative relationship with current-year summer temperatures. Piñon pine mast production (n = 210 trees) was positively related to 1-yr lagged total annual precipitation and negatively associated with current-year spring and summer temperatures. Oak mast production (n = 194 trees) also was positively related to current-year late-winter precipitation but was not affected by subsequent summer temperatures. (2) Multivariate environmental logistic regression models produced reasonable fits to observed field mast values. (3) High-mast years in juniper and oak were characterized by greater proportions of trees producing mast and increased mast production per tree. (4) Juniper, oak, and piñon pine mast years were highly synchronized. (5) We found indirect support for resource depletion in all three species at some sites and indirect support for resource cycling in oak populations. (6) We observed only marginal indirect evidence for resource switching in piñon pine and oak. (7) Analyses of atmospheric pollen abundance relative to mast production produced no significant relationships. Predictive models of mast production have direct applications to regional silviculture, wildlife management, and ecosystem services in Southwestern woodlands.

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Recent developments in understanding mast seeding in relation to dynamics of carbon and nitrogen resources in temperate trees

Cited by 47 publications

References 100 publications

Pollen limitation as a main driver of fruiting dynamics in oak populations

Pollen limitation as a main driver of fruiting dynamics in oak populations

Decadal changes in masting behaviour of oak trees with rising temperature

Environmental and endogenous drivers of tree mast production and synchrony in piñon–juniper–oak woodlands of New Mexico

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