Arrested recovery in a sandy woodland correlates with a lack of heavy and long seeds in the seed bank

Gross, C. L.; Vary, Laura B.

doi:10.1890/es14-00020.1

Cited by 7 publications

(7 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It is, however, larger than that found for other Australian plant communities (see Fig. 2 in Vlahos and Bell, 1986 ; Gross and Vary, 2014 ), including seed bank studies from the adjacent moist New England Tablelands [e.g. 18·5 seeds/m 2 for the native Asteraceae Brachyscome aculeata (Table 1 in Grant and MacGregor, 2001 ); <13 seeds/m 2 for four hard-seeded species ( Campbell and Clarke 2006 )].…”

Section: Discussionmentioning

confidence: 66%

Two decades of demography reveals that seed and seedling transitions limit population persistence in a translocated shrub

Gross

Mackay

2014

Annals of Botany

View full text Add to dashboard Cite

Background and AimsOlearia flocktoniae is an endangered shrub that was passively translocated from its natural ecosystem, where it has since gone extinct. This study aimed to determine sensitivities vital to populations persisting in human-created areas.MethodsPopulation colonization, longevity and extinction were investigated over 20 years using 133 populations. Seed-bank longevity was determined from germination trials of seeds exhumed from extinct and extant sites via a 10-year glasshouse trial and by in situ sowing experiments. From 27 populations, 98 cohorts were followed and matrix models of transitions from seeds to adults were used to evaluate the intrinsic rate of population growth against disturbance histories. Ten populations (38 cohorts) with different disturbance histories were used to evaluate sensitivities in vital rates.Key ResultsMost populations had few individuals (∼30) and were transient (<5 years above ground). The intrinsic population growth rate was rarely >1 and all but two populations were extinct at year 20. Seeds were short-lived in situ. Although >1000 seeds per plant were produced annually in most populations, sensitivity analysis showed that the transition to the seed bank and the transition from the seed bank to seedlings are key vulnerabilities in the life-cycle.ConclusionsSeedling establishment is promoted by recent disturbance. Increasing the number of disturbance events in populations, even severe disturbances that almost extirpate populations, significantly increases longer-term population persistence. Only populations that were disturbed annually survived the full 20 years of the study. The results show that translocated populations of O. flocktoniae will fail to persist without active management.

show abstract

Section: Discussionmentioning

confidence: 66%

Two decades of demography reveals that seed and seedling transitions limit population persistence in a translocated shrub

Gross

Mackay

2014

Annals of Botany

View full text Add to dashboard Cite

show abstract

“…It is an endangered ecological community (OEH ) comprised of an open‐woodland on low‐lying sand dunes with a diverse plant community. Further descriptions are given in Gross and Vary (). In this study, we used the WSW greenfield site Archerfield (32.50°S, 151.05°E) for our field trials (see below).…”

Section: Methodsmentioning

confidence: 99%

“…The present study is a component in the restoration of an endangered ecological community (Gross & Vary ), the Warkworth Sands Woodlands (WSW). Much of the area was cleared historically for grazing and, more recently, for mining, but now requires restoration.…”

Section: Introductionmentioning

confidence: 99%

Seed provenance for changing climates: early growth traits of nonlocal seed are better adapted to future climatic scenarios, but not to current field conditions

Gross

Fatemi

Simpson

2016

Restoration Ecology

Self Cite

View full text Add to dashboard Cite

The urgency to repair degraded ecosystems is challenged by the need to future‐proof populations to deal with changing climates. Therefore, it is necessary to know if source gene‐pools are resilient to both current and future climatic conditions. We tested this question with the pioneer shrub Hardenbergia violacea (Fabaceae), an important species for restoration in eastern Australia. We evaluated in situ and ex situ performance of seed from eight provenances, two local and six from regions receiving hotter and wetter spring to autumn conditions and/or drier winters and we included wild and commercial collections. We compared survivorship of seedlings in climate‐houses that emulated current and predicted temperature and rainfall. In the field, we measured germination and seedling survivorship. We used neutral codominant markers to provide inbreeding and heterozygosity estimates to evaluate against health and survivorship. All provenances survived the current conditions, but local provenances were the poorest performers in the predicted hotter and wetter scenario compared with nonlocal provenances. No provenance survived more than a fortnight of a climate‐house simulated, but predicted, extreme weather event of a drought (35/22°C 12 hours day/night, 50 mL/week = 220 mm rainfall). Heterozygosity was positively associated with plant health in surviving plants, and plants in poor condition had high inbreeding estimates. In the field, nonlocal provenances performed poorly and most survivors were from local provenances. The contribution of individual genetic variation to stress tolerance will be an important consideration when selecting provenances for future climates.

show abstract

“…Our results show, for the first time for the Chaco forest, that the litter seed bank and the juvenile bank — both with high similarity to the floristic composition of the established vegetation — could be acting as much more effective reservoirs for the regeneration of the woody Chaco forest if major disturbances are halted. Other studies have highlighted the role of the litter as an effective trap for seeds and as a factor modifying abiotic conditions, facilitating germination in situ (Chambers, 2000; Facelli & Pickett, 1991; Gross & Vary, 2014; Paez & Marco, 2000; Rotundo & Aguiar, 2005; Seidl, Vigl, Rossler, Neumann, & Rammer, 2016). An experimental study in the same area (Lipoma, Cuchietti, Gorne, & Díaz, 2019) indicates that sites with higher litter cover and vegetation complexity retain a higher number of seeds on the ground.…”

Section: Discussionmentioning

confidence: 99%

Where does the forest come back from? Soil and litter seed banks and the juvenile bank as sources of vegetation resilience in a semiarid Neotropical forest

Lipoma

Fortunato

Enrico

et al. 2020

J Vegetation Science

View full text Add to dashboard Cite

Questions: The existence of reservoirs from which dominant plants recruit after disturbances is a key factor in ecosystem resilience. With this in mind, we ask the following qestion: where do woody species regenerate from in the semiarid Neotropical Chaco forest? Is land use affecting the floristic composition of biodiversity reservoirs? Are the soil and litter seed banks and the juvenile bank potential sources of resilience of these forests in the face of different land‐use regimes? Location: Chancaní, Northwestern Córdoba, Argentina. Methods: We selected four ecosystem types subjected to increasing long‐term land‐use intensity: primary forest (no land use in the last 50 years), secondary forest (low land‐use intensity), closed species‐rich shrubland (moderate land‐use intensity), and open shrubland (high land‐use intensity). We monitored four sites per ecosystem type where we recorded adults, saplings and seedlings of all woody species. We collected litter and soil samples that were processed in the laboratory for taxonomic identification and germination of seeds. We compared the floristic composition of the soil and litter banks, as well as of the juvenile bank (“biodiversity reservoirs”) with that of established vegetation of the primary forest, considered as the reference ecosystem. We also compared the established vegetation from sites under land use with that of the primary forest. Results: Woody species were scarcely represented in the soil, but very well represented in the litter and the juvenile banks from different ecosystem types. These two reservoirs showed high similarity with the established vegetation of the primary forest. However, as land‐use intensity increased, similarity between the reservoirs and the established vegetation of the primary forest decreased. Conclusion: Litter and juvenile banks, but not the soil bank, are the main reservoirs for the recruitment of new individuals of woody species in the Chaco forest. However, the ability of these reservoirs to act as sources of resilience decreases as land use intensifies.

show abstract

Arrested recovery in a sandy woodland correlates with a lack of heavy and long seeds in the seed bank

Cited by 7 publications

References 47 publications

Two decades of demography reveals that seed and seedling transitions limit population persistence in a translocated shrub

Two decades of demography reveals that seed and seedling transitions limit population persistence in a translocated shrub

Seed provenance for changing climates: early growth traits of nonlocal seed are better adapted to future climatic scenarios, but not to current field conditions

Where does the forest come back from? Soil and litter seed banks and the juvenile bank as sources of vegetation resilience in a semiarid Neotropical forest

Contact Info

Product

Resources

About