5 Most SAQ’s of Diversity of Living World Chapter in Inter 1st Year Zoology (TS/AP)

4 Marks

SAQ-1 : Define species. Explain the various aspects of ‘species’.

Introduction

Species is a fundamental concept in biology, central to understanding biodiversity, ecology, and evolution. It is crucial for students to comprehend the various aspects of ‘species’ to grasp the complexities of biological classification and species interactions in ecosystems.

Definition of Species

Species: A species is the most basic unit of biological classification and a fundamental category of taxonomic organization. It is defined as a group of living organisms consisting of similar individuals capable of exchanging genes or interbreeding. The species is a principal natural taxonomic unit, ranking below a genus and denoted by a Latin binomial, e.g., Homo sapiens.

Various Aspects of ‘Species’

1. Morphological Species Concept:
   • Description: This concept defines a species based on physical characteristics and morphological features.
   • Limitations: It may not always be reliable, as different species can appear similar (convergent evolution), and the same species can exhibit morphological variations.
2. Biological Species Concept:
   • Description: A species is a group of individuals that can interbreed and produce fertile offspring in natural conditions.
   • Limitations: It does not apply to asexual organisms and is difficult to apply in the case of extinct species or species that reproduce both sexually and asexually.
3. Ecological Species Concept:
   • Description: This concept views a species in terms of its ecological niche, focusing on the role and position of an organism in its environment.
   • Application: It emphasizes the unique adaptations and interactions a species has with its surroundings.
4. Genetic Species Concept:
   • Description: Defines a species based on genetic makeup and the degree of genetic differentiation.
   • Advantages: Useful in identifying cryptic species which are morphologically similar but genetically distinct.
5. Evolutionary Species Concept:
   • Description: An evolutionary species is a lineage (an ancestral-descendant sequence of populations) evolving separately from others and with its own unitary evolutionary role and tendencies.
   • Focus: It emphasizes the historical aspect of lineage and evolutionary past.

Summary

Species is a key concept in biology, with various aspects defining its scope. These include the morphological species concept, biological species concept, ecological species concept, genetic species concept, and evolutionary species concept. Each aspect provides a different perspective on what constitutes a species, contributing to our understanding of biodiversity and the evolutionary relationships among organisms. Understanding these different aspects is vital for comprehending the complexity and diversity of life on Earth.

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SAQ-2 : What is the ‘evil quartet’?

Introduction

The term ‘evil quartet’ is used in the context of biodiversity conservation to refer to four major threats that pose significant risks to the diversity of life on Earth. These threats have been identified as significant drivers of biodiversity loss and have become a focal point for conservation efforts.

The Evil Quartet – Four Major Threats to Biodiversity

1. Habitat Loss and Fragmentation:
   • One of the most critical threats to biodiversity is the loss and fragmentation of natural habitats.
   • Human activities such as deforestation, urbanization, and land conversion for agriculture and infrastructure development lead to the destruction and degradation of ecosystems.
   • This loss of habitat disrupts the natural balance and puts many species at risk of extinction.
2. Overexploitation:
   • Overexploitation refers to the unsustainable use of natural resources, particularly hunting, fishing, and harvesting of plants and animals.
   • When species are exploited beyond their ability to replenish their populations, it can lead to population declines and even extinction.
   • This threat is especially concerning for species with slow reproductive rates or limited distribution.
3. Invasion of Alien Species (Invasive Species):
   • Alien species, also known as invasive species, are non-native organisms introduced to new environments, often through human activities.
   • These invasive species can outcompete and displace native species, disrupt ecosystems, and cause ecological imbalances.
   • They pose a significant threat to local biodiversity, as they may not have natural predators or controls in their new environment.
4. Co-extinctions:
   • Co-extinction refers to the phenomenon where one species becomes extinct, leading to the extinction of other species that were dependent on it for survival.
   • Many species have mutualistic relationships or dependencies on other species for food, pollination, or other ecological functions.
   • When one species disappears, it can trigger a chain reaction of extinctions, impacting the entire ecosystem.

Summary

The ‘evil quartet’ encompasses four major threats to biodiversity: habitat loss and fragmentation, overexploitation, invasion of alien species, and co-extinctions. These threats have significant implications for the balance and diversity of ecosystems and are crucial focal points for conservation efforts to protect and preserve the rich variety of life on our planet. Understanding and addressing these threats is vital to ensure the sustainability and health of our global environment.

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SAQ-3 : Explain ‘Rivet Popper’ hypothesis.

Introduction

The ‘Rivet Popper’ hypothesis is a concept used in ecology to explain the potential consequences of losing species within an ecosystem. This hypothesis draws an analogy between the functioning of an ecosystem and the structure of an airplane. In this analogy, species in an ecosystem are compared to the rivets that hold an airplane together. When rivets are removed from an airplane’s structure, it weakens the plane, making it more susceptible to failure. Similarly, the loss of species in an ecosystem can lead to a decline in its stability and functioning.

Explanation of the ‘Rivet Popper’ Hypothesis

1. Ecosystem Resilience: Ecosystems are complex networks of interactions between various species, with each species playing a unique role in maintaining the stability and functioning of the ecosystem. Just like an airplane’s rivets contribute to its structural integrity, each species contributes to the ecosystem’s resilience and balance.
2. Species Interdependence: In an ecosystem, species are often interconnected through various ecological relationships, such as predation, competition, and mutualism. The loss of a species can disrupt these interconnections, leading to a domino effect on other species.
3. Redundancy and Functional Redundancy: Ecosystems may have species that perform similar functions, providing redundancy in case one species is lost. This redundancy ensures that the ecosystem can still function even if one species is affected. However, the ‘Rivet Popper’ hypothesis suggests that there is a limit to this redundancy, and as more species are lost, the ecosystem’s ability to function properly declines.
4. Keystone Species: Some species within an ecosystem may have a disproportionately large impact on the entire system, known as “keystone species.” When keystone species are lost, their unique roles in maintaining ecological balance are compromised, leading to cascading effects on other species and the ecosystem as a whole.
5. Ecosystem Collapse: The ‘Rivet Popper’ hypothesis warns that there is a threshold beyond which the loss of species can result in an ecosystem collapse. As more species are lost, the ecosystem’s ability to provide vital services, such as nutrient cycling, pollination, and pest control, diminishes, ultimately leading to its decline and potential collapse.

Summary

The ‘Rivet Popper’ hypothesis emphasizes the importance of maintaining biodiversity and preserving the intricate web of species interactions within ecosystems. It serves as a cautionary reminder of the potential consequences of species loss, urging the need for conservation efforts to protect and restore biodiversity for the health and stability of our planet’s ecosystems.

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SAQ-4 : What are the reasons for greater biodiversity in the tropics?

Introduction

Biodiversity refers to the variety and variability of life on Earth, encompassing the number of different species and their ecological roles within ecosystems. A notable pattern in biodiversity distribution is that the tropics, regions around the Earth’s equator, harbor significantly greater diversity of species compared to other latitudinal regions. Several factors contribute to this higher biodiversity observed in the tropics.

Reasons for Greater Biodiversity in the Tropics

1. Large and Diverse Habitats: The tropics cover a vast area and contain a variety of ecosystems, including rainforests, savannas, mangroves, and coral reefs. This range of habitats provides numerous niches for different species to thrive, contributing to the diversity.
2. Stable Climate: Tropical regions experience relatively consistent climatic conditions throughout the year. This stability allows species to adapt and specialize in their ecological roles, leading to niche differentiation and higher biodiversity.
3. Longer Evolutionary Time: The tropics have remained relatively undisturbed over millions of years, offering a prolonged period for species to diverge and adapt. This extended evolutionary time has resulted in extensive speciation and the emergence of numerous unique species.
4. High Productivity: Due to abundant solar energy and ample water resources, tropical regions are ideal for plant growth. The high productivity of vegetation supports a rich food web, sustaining a large number of species.
5. Reduced Seasonal Variation: The minimal seasonal variations in the tropics, compared to temperate regions, allow species to persist and reproduce year-round, promoting higher biodiversity.
6. Reduced Extinction Rates: The stable environment and fewer natural disasters in the tropics contribute to lower extinction rates compared to regions with more variable climates and ecological disturbances.
7. High Interactions and Coevolution: The high species richness in the tropics fosters extensive interactions among species, such as competition, predation, and mutualism. These interactions can lead to coevolution, where species evolve in response to each other, further promoting biodiversity.

Summary

The greater biodiversity in the tropics is attributed to factors including stable climate, diverse habitats, long evolutionary periods, high productivity, reduced extinction rates, and high species interactions and coevolution. Understanding these reasons is vital for conservation efforts and the preservation of the unique and invaluable ecosystems found in tropical regions.

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SAQ-5 : Explain in brief ‘Biodiversity Hot Spots’.

Introduction

Biodiversity Hotspots are biogeographic regions characterized by a remarkable concentration of biodiversity and are significantly threatened by extinction due to human activities. The concept, introduced by ecologist Norman Myers, serves as a crucial framework for conservation efforts.

Biodiversity Hotspots

1. Proposed by Norman Myers: Ecologist Norman Myers coined the term “Biodiversity Hotspot” in the 1980s, introducing this important ecological concept.
2. Reservoir of Biodiversity: These hotspots are regions with an exceptional variety of species, including many endemic species found nowhere else on Earth. They are biologically rich and critical reservoirs of global biodiversity.
3. Threatened by Human Activities: Despite their ecological importance, biodiversity hotspots face severe threats primarily from human activities, such as deforestation, habitat destruction, pollution, climate change, and overexploitation of natural resources.
4. Terrestrial Ecoregions: Most biodiversity hotspots are terrestrial ecoregions, each with specific geographical areas characterized by unique ecological features and species compositions.
5. Global Hotspots: There are about 34 recognized biodiversity hotspots globally, including the Western Ghats and Sri Lanka, Indo-Burma, and the Himalayas.
6. Conservation Measures: Various conservation measures, like designating areas as Biosphere Reserves, National Parks, Wildlife Sanctuaries, and protecting sacred groves, have been implemented to protect these ecologically unique and biodiversity-rich regions.

Summary

Biodiversity hotspots are vital for the conservation of Earth’s biological diversity. Identifying and prioritizing these regions for conservation efforts is essential to safeguard the unique and threatened species and ecosystems they contain. Conservation actions in biodiversity hotspots are crucial to preserve Earth’s natural heritage and ensure the survival of numerous plant and animal species at risk of extinction.