gap dynamics and regeneration in tropical forests (lecture 3)

Question 1

What are the three main stages of the gap mosaic model?

Answer 1

• proposed by Aubreville in the 1930s
  1) gap creation immediately following a tree fall or gap opening event
  2) building or regeneration phase characterised by competition for light/other resources leading to regeneration/growth
  3) mature phase where high emergent forest canopy is re-established

Question 2

How are gaps created?

Answer 2

• rainforest trees eventually die & fall - e.g. uprooted/snap/blown down/struck by lightning
• trees often bring down more trees as crowns meshed together with lianas
• large branches continually break off from trees and fall
• gaps vary in size
• damage to vegetation below varies with composition of surrounding vegetation & type of forest

Question 3

What is the effect of gap opening allowing light into the forest?

Answer 3

• creates diverse microclimates affecting light, moisture, temperature and wind conditions
• light is limiting abiotic factor in rain forest understory
• full sunlight 200μmol per metre squared
• la Selva, Costa Rica
• gaps of approximately 300 m2 experience 8.6%-24% of full sunlight
• understorey which received 0.4%-2.4% full sunlight
• quality of light changes with an increase in photosynthetically active radiation (PAR), light with wavelength 400-700nm

Question 4

What are the microclimate characteristics of a small gap in semi-deciduous seasonal tropical forest in Brazil?

• Portes et al., 2007

Answer 4

• light in forest gap reached 1600µmol per metre squared per second
• less that 25µmol per metre squared per second in understorey
• air vapour pressure deficit (VPDair)
• gap conditions 2.8kPa in June and 4.0 kPa in August
• understorey maximun 1.5kPa in June, 2.8kPa in August
• values observed at midday when air temperatures were high

Question 5

What are the stages of succession after a gap forms?

Answer 5

• gap opens
• competition for light & nutrients is intense & rapid growth and reproduction take place

stages of succession:

• rapid colonisation by shrubs, vines, lianas, pioneer tree species seedlings
• rapid growth short-lived light-demanding species form a canopy over 10-30 years
• slower growing shade tolerant climax tree species grow in biomass & species richness below the pioneer canopy and become taller
• eventually short lived species die and shade tolerant climax trees emerge and reestablish the tall canopy (75-150 years)

Question 6

What is the concept of pioneer and climax species?

Answer 6

• broad categorisation based on characteristics (functional traits) influencing growth and survival strategies
• pioneer-climax classification represent extremes on a continuum

Question 7

What are pioneer species seed, environment and taxanomic characteristics?

Answer 7

seeds:

• lots of small seeds
• dispersed widely by wind/animals
• can lay dormant in soil seed bank until a gap opens producing favourable conditions for germination
• require light to germinate
• gap dependent
• seedlings persist in well lit gaps, are rarely found in understorey
• pioneer genera widely distributed but species poor
• species belong to few genera/families
• good dispersal reduces development of distinct population

Question 8

What are pioneer species growth characteristics?

Answer 8

• establish and grow rapidly whilst light/nutrients/water available
• high rates of photosynthesis and respiration
• rapid growth under high light
• leaves with high hydraulic conductance
• transpire rapidly allowing high rates of photosynthesis
• water use efficiency low

Question 9

What are pioneer species leaf characteristics?

Answer 9

• crowns open or branched to capture light maximally
• leaves of pioneer species usually quite large for light capture
• short lifespan and turnover quickly
• little investment in defence against pathogens/herbivores
• trade off between growth and defence

Question 10

What are pioneer species wood & root characteristics?

Answer 10

• low wood density due to rapid growth rates
• highly branched roots for efficient acquisition of nutrients
• can be mycorrhizal

Question 11

What are common genera of pioneer species and where are they found?

Answer 11

• cecropia (neotropics)
• musanga (africa)
• trema (pantropical)
• macaranga (paleotropics)

Question 12

What are climax species seeds/seedling characteristics?

Answer 12

seeds:

• large
• produced annually or less frequently (mast fruiting)
• short range dispersal, diverse mechanisms
• few species in soil seed bank

seedlings:

• germination in understorey
• species may persist as seedling banks
• survival in understorey is essential
• can grow very little for years waiting for gap to open
• large variation in degree of shade tolerance

Question 13

What are climax species growth characteristics?

Answer 13

• low rates of photosynthesis and respiration compared to pioneer species
• low rates of transpiration
• high water use efficiency
• great variation/continuum between climax species in growth-survival trade offs e.g. ability to utilise light when a gap opens
• continue to grow and become emergent canopy trees
• can live 100 years

Question 14

What are climax species leaf characteristics?

Answer 14

• more branches than pioneer species
• relatively small leaves
• long-lived
• slow rate of turnover
• tough with chemical defences to deter herbivores
• adapted for survival at expense of rapid growth

Question 15

What are climax species wood and root characteristics?

Answer 15

• high wood density (slow growth)

- mycorrhizal roots

Question 16

Does disturbance promote diversity?

Answer 16

• forest gap dynamic fit with evidence disturbance promotes diversity
• species may be adapted to exploit different stages of succession from gap opening to closing
• generates diversity in species number & ecological strategies

Question 17

Do light gradients (or other abiotic variables) lead to niche partitioning across gaps?

Answer 17

• thought to contribute to coexistence of rain forest tree species and promote species diversity
• three underlying premises:
• gradient in light availability at forest floor
• differential distribution of tree species with respect to light
• trade off in species performance that explains position along light gradient

Question 18

Is there a gradient in light availability at the forest floor?

Poorter et al., 2003

Answer 18

• gradient of light on forest floor
• canopy openness ranged from 0.2 - 10.6%
• sites with high canopy openness were in gaps & relatively rare
• deep shade also relatively rare

Question 19

What is the crown illumination index?

Poorter et al., 2003

Answer 19

• crown illumination Index (CII)
• visual estimate of amount of light received by tree crowns
• ordinal scale
• high CII values indicating high light levels.

1 - no direct light
1.5 - low amount of lateral light
2 - medium amount of lateral light
2.5 - high amount of lateral light
3 - parts of crown receives direct overhead light
4 - whole of crown receives direct overhead light
5 - crown completely exposed

Question 20

Do different species occupy different light environments?

Poorter et al., 2003

Answer 20

• relative frequency distributions of crown illumination index for saplings of 10 rain forest species (1997)
• species occurred in similar environments but differed in their crown illumination index

Question 21

Is there a trade off in species performance that was related to position on the light gradient?

Poorter et al., 2003

Answer 21

• proportion of seedlings in low light negatively correlated with successional position
• light demanding species had a low number of saplings in low light conditions
• light demanding species had higher sapling mortality in low light conditions
• higher growth response to light

Question 22

What were the conclusion of the study on light gradients and niche partitioning?

Poorter et al., 2003

Answer 22

• three premises of the study were met
• clear gradient in shade tolerance within this group of non pioneer species
• species showed a subtle variation in plant strategy
• may have contributed to the packing of species along a small range of light environments
• light partitioning may have contributed to the co-existence of these species in conjunction with other mechanisms

Question 23

Do forest gaps help explain high tree species diversity?

Hubbell (1999)

What did they do?

Answer 23

• Barro Colorado Island, Panama
• 1200 gaps of varying size in 50 hectare old forest plot studied over 13 years
• all woody plants with stem diameter at breast height (DBH) <1cm tagged, measured, mapped, identified to species level
• censuses in 1982, 1985, 1990, 1995

species divided into three categories:

• gap tolerant pioneer species
• shade tolerant species
• intermediate species

Question 24

Do forest gaps help explain high tree species diversity?

Hubbell (1999)

What did they find?

Answer 24

• no correlation between species richness and gap disturbance
• gaps had greater seedling establishment & higher sampling densities per quadrat than control areas
• species richness higher in gaps than control areas
• much variation in species composition between gaps
• species richness per stem was no different in gap sites/control areas