Your search keyword '"FOREST declines"' showing total 5 results

1. Incidence and severity of Phoracantha-induced decline within high-elevation eucalypt woodlands are strongly associated with elevation and land management.

Author

Brookhouse, Matthew Theodore, Farrow, Roger, Meyer, Jozef, McDougall, Keith, Ward-Jones, Jessica, and Wright, Genevieve T.

Subjects

EUCALYPTUS, LAND management, WOOD borers, FORESTS & forestry, ALTITUDES, FOREST declines

Abstract

Observations suggest that sudden canopy decline and death of widely dispersed individual trees, associated with wood-borer infestations, has recently expanded and intensified within high-elevation Eucalyptus pauciflora and E. lacrimans stands on the Kosciuszko massif, southeast Australia. Despite reports of insect infestations and associated tree decline over four decades, the phenomenon has been poorly understood and the identity of the associated wood-borer taxon only anecdotally resolved. We conducted a systematic study of sub-alpine forests in Kosciuszko National Park, NSW, with the intent of building a knowledge base of the phenomenon's aetiology and guiding ongoing research priorities. Using 10-metre radius plots positioned on elevational transects in areas under shared management for snow-based recreation and conservation and areas managed for conservation-only, we found a strong association between increasing severity of wood-borer feeding galleries and decline of canopy condition. The presence of even the first indicators of insect infestation was associated with a three-fold increase in declining canopy condition. Two-way contingency analysis revealed that increasing severity of feeding galleries corresponded with a highly significant decline in canopy-condition. Indicators of wood-borer infestation held greater explanatory power for deteriorating crown condition, than the converse, indicating that wood-borer infestation more likely precede, than follow, canopy decline and death. Based on insect detections over three years and consistency between observed and previously described wood-borer damage, it is unambiguously clear that the native cerambycid species Phoracantha mastersi is principally responsible for insect galleries in affected trees. Detections were associated with warm daily temperature maxima. Modelling of the incidence and severity of infestations indicated elevation and land-management status were significant predictors for the probability of wood-borer infestation at stand and tree levels. The same predictors were significant for predicting the proportion of stand basal area affected. Combined with temporal patterns in insect detections, our modelling results suggest that low temperatures play a key role in limiting upward migration of infestations. While we suspect that fragmentation of forest cover within shared-management areas favours short-distance dispersal and local intensification, an increase in forest-edges may also account for both greater frequency and severity of stand-level infestations in shared-management areas. Mindful of an apparent lower limit to P. mastersi infestations at the interface of affected/unaffected eucalypt taxa, we advocate for greater understanding of physiological traits affecting tree-level vulnerability to infestation. Further, reflecting their roles in Phoracantha infestations elsewhere, we regard resolving the combined roles of temperature and drought stress in initiating outbreaks as particularly important. Similarly, consistent with the effect of land-management status on P. mastersi infestations, improved knowledge of the spatial and temporal attributes of Phoracantha -induced dieback in snow-gum forests is needed. • A strong association exists between evidence of wood borers and canopy condition. • The native cerambycid species Phoracantha mastersi is principally responsible. • Elevation and land-management are significant predictors of infestation. • Declining temperature with elevation likely limits upward movement of wood borers. • Forest fragmentation may explain greater infestation severity in modified areas. [ABSTRACT FROM AUTHOR]

Published

2024

2. Contrasting patterns of land-cover change between early and late successional forests in a tropical montane cloud forest area managed under the milpa system.

Author

de los Santos-Reyes, Ernesto, del Castillo, Rafael F., Rös, Matthias, and Bray, David B.

Subjects

CLOUD forests, FOREST succession, SECONDARY forests, FOREST declines, FORESTS & forestry, LAND use, GRASSLANDS

Abstract

• Mexican tropical montane cloud forests (TMCF) often are linked to the milpa system. • Semi-permanent agriculture and pastures has been replaced milpas in TMCF areas. • In 2005-2014, TMCFs, shrub fallows, and pastures increased in Sierra Norte, Oaxaca. • Total forest area and pine forests decreased, likely associated to land use change. • The cover type change rates are linked with human population growth rates. Land cover dynamics (LCD) in areas affected by different management types are hard to predict. Such is the case of tropical montane cloud forest (TMCF) areas in Mexico. The millenary itinerant milpa involves local cyclical deforestation and natural reforestation dynamics with long-lasting fallow periods. Conversely, induced grasslands for cattle, non-traditional maize cultivation with short fallow periods, and sedentary agriculture involve persistent deforestation rates. Also, human density changes could alter LCD. Ignoring such factors may lead to equivocal conclusions. We analyzed LCD using remote sensing analyses with LANDSAT images during two periods (1993–2005, 2005–2014) in a TMCF area in Sierra Norte, Oaxaca, affected by milpas, sedentary agriculture, and grasslands. We divided the study area into six indigenous sub-regions with different human population growth rates (HPG). We identified five land-cover types: mature forests (MF) dominated by TMCF species, early successional pine forests (PF), shrubby fallows (SH), croplands (milpas and more sedentary maize croplands together), and grasslands. We show that: (a) The 1993–2005 period was more variable than the 2005–2014 period, 27 % vs. 21 % of the total area displayed transitions into another class. (b) MF area dominated (277,128 ha), increased from 1993 (64.0 %) to 2014 (67.6 %), and was not statistically associated with HPG. (c) PFs decreased from 27 % in 1993 to 15 % in 2014, and their rate of change was negatively associated with HPG. (d) The total forest area (MF + PF) decreased by 9.3 %. (f) Grasslands, SHs, and croplands fluctuated between periods and sub-regions, but none exceeded 7 % of the total area. (g) Grasslands showed the greatest increase rate, mainly at the expense of forestlands. (h) The grassland and SH increments were positively associated with HPG. The heterogeneity in LCD among periods and sub-regions reveals the relevance of considering temporal and spatial scales within the same region. The persistence of MF and the PF decrease can be ascribed to the disruption of the successional dynamics related to the decline of the traditional milpa enforced by federal and state policies at the beginning of the 21st century, the sedentarization of agriculture, local conservation areas, increases of induced pastures, and human emigration. Although Sierra Norte is an essential reservoir of TMCFs, the decline of the total forest area, particularly secondary forests, is of concern given their roles in resilience and as carbon, culture, and biodiversity reservoirs. Humid mid-elevation areas of Sierra Norte are one of the few examples of mature forest persistence and secondary forest decline. [ABSTRACT FROM AUTHOR]

Published

2023

3. Human activities facilitated the decline of forest ecosystem in East Asia after 5000 a BP.

Author

Zhou, Shengfang, Long, Hao, Xing, Hang, Zhang, Ke, Wang, Rong, and Zhang, Enlou

Subjects

*FOREST declines, *ANTHROPOGENIC effects on nature, *FOREST plants, *FORESTS & forestry, *FOREST degradation, *ECOSYSTEMS

Abstract

Human activities have drastically reshaped global forest ecosystems in recent decades. However, identifying the origins, magnitude, and primary effects of these actions, especially in East Asia (EA), with a long history of human activity, remains challenging. Crucially, unraveling the early anthropogenic impacts on forest ecosystems has substantial implications for characterizing the Anthropocene. In this study, we collated and synthesized Holocene arboreal pollen (AP) sequences from 61 EA lake basins, which demonstrated an overall expansion of forest vegetation during the early to middle Holocene, followed by a retreat from 5 cal. ka BP. The cooling and drying climate during the mid- and late Holocene proved inimical to forest proliferation across EA. Survival imperatives are likely to drive humans to adopt grazing and farming, causing a transformation from forest land to agro-pastoral land. This change further accelerated forest ecosystem degradation. By dividing EA into five subregions, we observed asynchronous declines in forest vegetation from 8 cal. ka BP to 3 cal. ka BP. This trend is primarily attributed to human impacts, given the pronounced coincidence between forest reduction and emergence and prosperity of Neolithic agriculture in each region. Significantly, the positive feedback loop between population growth and agricultural expansion can amplify human impacts. Coupled with climatic effects, these factors resulted in EA's forest vegetation plummeting to its lowest level since 10 cal. ka BP at 2.1 cal. ka BP. Furthermore, the anthropogenic influences on EA forest vegetation mirror land use, soil erosion, and vegetation variability observed globally in terms of timeline. These alterations are driven by human activities, almost coinciding with shifts in atmospheric greenhouse gas levels away from their natural trajectory. We, therefore, argue that the Anthropocene definition should consider the aggregate environmental impact of human activities over millennia, rather than restricting to the most recent centuries. [ABSTRACT FROM AUTHOR]

Published

2023

4. Integrated economic and environmental modeling of forest biomass for renewable energy in California: Part I - Model development.

Author

Li, Kaiyan, Kirkland, Scott, Yeo, Boon-Ling, Tubbesing, Carmen, Bandaru, Varaprasad, Song, Lan, Holstege, Laura, Hartsough, Bruce, Kendall, Alissa, and Jenkins, Bryan

Subjects

*FOREST biomass, *BIOMASS energy, *RENEWABLE energy sources, *FORESTS & forestry, *FOREST declines, *ECONOMIC models, *WILDFIRE prevention, *FOREST thinning, *DROUGHT management

Abstract

Forests are a major natural resource of the state of California, where over a third of the land is forested, and provide a wide range of environmental, economic, and social benefits. Over the past decade, unprecedented drought, insect outbreaks and wildfires have resulted in large-scale tree mortality that greatly affects the forest ecosystem and poses significant threat to human health and welfare and to the environment. Forest thinning and management is considered imperative to improve forest health and resilience. Forest resources including dead and dying trees as well as the residues produced from forest thinning and timber harvesting operations could potentially be used to a greater degree than at present to generate electricity and other renewable energy to meet the increasing demand for more sustainable supplies and mitigate the risk of wildfires. However, efforts to construct new electricity generation capacity in the state at any scale over the last several decades have faced both economic and environmental challenges. As needs for alternative management approaches have become clear, opportunities have emerged for new bioenergy projects. These projects need to be effectively planned and potential economic and environmental performance carefully evaluated. Toward this purpose, an integrated framework model for lifecycle and technoeconomic assessment was developed to quantify environmental and economic impacts, initially for generating electricity using forest resources and with associated web services developed for an online application (forestdss.ucdavis.edu) that allows potential users to quickly estimate the economic and environmental performance of a potential facility at specified locations. • Tree mortality, past fire suppression practices, and high fuel loadings threaten forests and human health and welfare. • Forest resources including dead and dying trees as well as residues can be used for greater renewable energy production. • Bioenergy projects need to be effectively planned and potential economic and environmental performance carefully evaluated. • An integrated spatial framework model was developed to aid in decision making related to new project investments. [ABSTRACT FROM AUTHOR]

Published

2023

5. New evidence on the role of past human activities and edaphic factors on the fine-scale distribution of an important timber species: Cylicodiscus gabunensis Harms.

Author

Ndonda Makemba, Romaric, Moupela, Christian, Tosso, Félicien, Brostaux, Yves, Drouet, Thomas, Oslisly, Richard, Freycon, Vincent, and Doucet, Jean-Louis

Subjects

CHARCOAL, FOREST declines, TREE age, FOREST regeneration, SOIL fertility, FORESTS & forestry

Abstract

• Cylicodiscus gabunensis is an important timber species with a poor regeneration in evergreen forest. • This study aims to define the conditions needed for optimal regeneration and silviculture of C. gabunensis in Gabon. • Establishment of the studied population coincides with the abandonment of agricultural land 148 years ago. • Cylicodiscus gabunensis stems are located on soil with relatively high content in Fe, K, P and total nitrogen. Despite the implementation of management plans, commercial tree species densities are declining in the forests of Central Africa. In the region, Cylicodiscus gabunensis Harms (Fabaceae-Caesalpinioideae; common name 'okan'), is one such species most exploited, but its ecology remains poorly understood. The rarity of its regeneration in evergreen forest suggests that, like other commercial light-demanding species, the conditions that allowed populations to become established are no longer present. Using a combined archaeobotanical and pedological approach, the aim of this study is to identify the factors explaining the current distribution of C. gabunensis individuals at local scale. Within a plot of 1050 ha in a forest concession in south-eastern Gabon, we installed 40 archaeological pits equally divided between sites with and without C. gabunensis. The artefacts encountered were collected and analysed. Charcoal masses were quantified and 18 charcoals were dated. These ages were compared with the average age of the tree population, using growth data from 50 individuals and heartwood dating from 4 individuals. An analysis of the physico-chemical properties of the soil was carried out on composite samples from each archaeological pit. Pottery sherds were found in two pits while charcoal was present in all pits, suggesting widespread human occupation and fire throughout the study area. Human occupation occurred in two phases: between 2480 and 1010 BP and from 590 to 80 BP. The abandonment of agricultural land at the end of this second phase could coincide with the establishment of the C. gabunensis cohort whose average age has been estimated at between 90 and 148 years. Soil analyses showed that C. gabunensis individuals were located on soils that were comparatively richer in element potentially toxic (Fe) and in some plant nutrients (K, P) and total nitrogen. The current scarcity of young trees argues for the implementation of a silviculture that integrates the light requirements of the species as well as the chemical fertility of the soil. [ABSTRACT FROM AUTHOR]

Published

2022